CN114130102A - Vacuum rotary drum filtration system - Google Patents
Vacuum rotary drum filtration system Download PDFInfo
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- CN114130102A CN114130102A CN202111236131.6A CN202111236131A CN114130102A CN 114130102 A CN114130102 A CN 114130102A CN 202111236131 A CN202111236131 A CN 202111236131A CN 114130102 A CN114130102 A CN 114130102A
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- 238000001914 filtration Methods 0.000 title claims abstract description 71
- 239000000463 material Substances 0.000 claims abstract description 65
- 238000000926 separation method Methods 0.000 claims abstract description 20
- 239000012530 fluid Substances 0.000 claims abstract description 11
- 239000007921 spray Substances 0.000 claims abstract description 10
- 239000007787 solid Substances 0.000 claims abstract description 8
- 239000007789 gas Substances 0.000 claims description 32
- 239000011343 solid material Substances 0.000 claims description 14
- 239000011261 inert gas Substances 0.000 claims description 5
- 238000011010 flushing procedure Methods 0.000 claims description 4
- 238000000034 method Methods 0.000 claims description 3
- 230000000694 effects Effects 0.000 abstract description 24
- 238000009826 distribution Methods 0.000 abstract description 17
- 238000009827 uniform distribution Methods 0.000 abstract description 3
- 238000007664 blowing Methods 0.000 description 16
- 230000007246 mechanism Effects 0.000 description 6
- 239000007788 liquid Substances 0.000 description 5
- 238000007789 sealing Methods 0.000 description 4
- 238000006243 chemical reaction Methods 0.000 description 3
- 230000004048 modification Effects 0.000 description 3
- 238000012986 modification Methods 0.000 description 3
- 238000005507 spraying Methods 0.000 description 3
- 230000009471 action Effects 0.000 description 2
- 230000004323 axial length Effects 0.000 description 2
- 230000000903 blocking effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 239000002245 particle Substances 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 230000001681 protective effect Effects 0.000 description 2
- 238000001179 sorption measurement Methods 0.000 description 2
- 238000003756 stirring Methods 0.000 description 2
- 235000017166 Bambusa arundinacea Nutrition 0.000 description 1
- 235000017491 Bambusa tulda Nutrition 0.000 description 1
- 241001330002 Bambuseae Species 0.000 description 1
- 235000015334 Phyllostachys viridis Nutrition 0.000 description 1
- 238000010521 absorption reaction Methods 0.000 description 1
- 239000011425 bamboo Substances 0.000 description 1
- 230000004888 barrier function Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 239000000110 cooling liquid Substances 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D33/00—Filters with filtering elements which move during the filtering operation
- B01D33/06—Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums
- B01D33/11—Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums arranged for outward flow filtration
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D33/00—Filters with filtering elements which move during the filtering operation
- B01D33/44—Regenerating the filter material in the filter
- B01D33/48—Regenerating the filter material in the filter by flushing, e.g. counter-current air-bumps
- B01D33/50—Regenerating the filter material in the filter by flushing, e.g. counter-current air-bumps with backwash arms, shoes or nozzles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D33/00—Filters with filtering elements which move during the filtering operation
- B01D33/70—Filters with filtering elements which move during the filtering operation having feed or discharge devices
- B01D33/72—Filters with filtering elements which move during the filtering operation having feed or discharge devices for feeding
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Filtering Of Dispersed Particles In Gases (AREA)
- Filtration Of Liquid (AREA)
Abstract
The present disclosure provides a vacuum drum filtration system, comprising: vacuum rotary drum filter and vacuum pump, vacuum rotary drum filter includes: the inner tube, urceolus and inlet pipe, the inside of urceolus is located to the inner tube quilt cover, and the inner tube can rotate for the urceolus, the inlet pipe is inserted from the axial one end of inner tube and is established and get into in the inner tube, let in the material to the inside of inner tube, be provided with the blowout port on the one side relative with the inner wall of inner tube of inlet pipe, make the blowout port can spray the material towards the inner wall of inner tube, the inner tube includes filtration, filtration can allow the fluid part to pass and get into in the urceolus, filtration can intercept the solid part in the inner tube simultaneously, the vacuum pump can communicate with the inside of urceolus, in order to be in the urceolus by continuous or discontinuous evacuation. According to the present disclosure, the spray area is increased, the distribution area in the circumferential direction of the inner cylinder is increased, the uniform distribution is improved, the filtering separation effect can be further increased, and the filtering capacity and the filtering effect of the filter are improved.
Description
Technical Field
The disclosure relates to the technical field of filtration, in particular to a vacuum drum filtration system.
Background
Among the prior art, CN205932460U discloses a vacuum suction filter device, which is characterized in that the interior of the vacuum suction filter device is sucked through a suction hole formed in a housing, so that a negative pressure is formed in the housing, the material moves upwards under the driving of the negative pressure, and is filtered by a filter mechanism, part of the material passes through the filter mechanism, and part of the physical matter with large particle size drops downwards under the reaction of gravity and the filter mechanism after being blocked by the filter mechanism, and the physical matter is adsorbed by the negative pressure of the housing and moves upwards, so that a circulation is formed, and the material is dispersed. However, the distribution of the materials is very uneven in all directions in space, and further the materials are distributed in a messy manner, so that the filtering effect is not good, small-particle-size materials to be separated are not effectively separated from the upper side due to the blockage of large-particle-size materials falling from the upper side, and large-particle materials to be separated may escape from the upper side due to the high rising speed. Resulting in poor material filtering and separating effect.
CN102527135A discloses a disk vacuum filter with independent absorption and independent dewatering system, it has vacuum adsorption system and vacuum dewatering system respectively, and two systems select the vacuum power supply that matches with it respectively, can carry out vacuum adsorption and vacuum dewatering respectively, effectively reduce the total energy consumption, and it stirs in order to strengthen the distribution degree of consistency through stirring transmission to its inside. But it still exists very inhomogeneous to the distribution of material in each direction in space, and then leads to the material to distribute in a jumble, finally causes the filter effect not good, leads to the material to filter the separation effect not good.
Because the filter among the prior art has the material in the technical problem such as the interior space of section of thick bamboo uneven distribution, and lead to separation efficiency low, consequently this open research designs a vacuum rotary drum filtration system.
BRIEF SUMMARY OF THE PRESENT DISCLOSURE
Therefore, the technical problem to be solved by the present disclosure is to overcome the defect that the separation efficiency is low due to the uneven distribution of the materials in the space of the cylinder in the filter in the prior art, thereby providing a vacuum rotary cylinder filtering system.
To address the above issues, the present disclosure provides a vacuum drum filtration system comprising:
vacuum rotary drum filter and vacuum pump, vacuum rotary drum filter includes: inner tube, urceolus and inlet pipe, the inner tube is located by the cover the inside of urceolus, just the inner tube can for the urceolus rotates, the inlet pipe is followed axial one end of inner tube is inserted and is established the entering in the inner tube, in order to can be right the inside of inner tube lets in the material, the inlet pipe with be provided with the blowout port on the relative one side of inner wall of inner tube, make the blowout port can face the inner wall of inner tube sprays the material, the inner tube includes filtration, filtration can allow fluid portion to pass and get into in the urceolus, simultaneously filtration can intercept solid part be in the inner tube, the vacuum pump can with the inside intercommunication of urceolus, in order will be in the urceolus by continuous or discontinuous evacuation.
In some embodiments, the device further comprises a first container, a first pipeline and a second pipeline, wherein a first output port is arranged at the bottom of the outer barrel, and the first container is communicated with the first output port through the first pipeline; the bottom of the first container is provided with a first exhaust port, the top of the first container is communicated with one end of a second pipeline, and the other end of the second pipeline is communicated to the vacuum pump.
In some embodiments, the inner barrel is further provided with a receiving device and a conveying device, the receiving device has an opening and a first inner space, the conveying device has a second inner space, the opening faces upward, the opening can receive materials falling on the inner wall of the inner barrel above the opening, the first inner space is communicated with the opening, the lower part of the first inner space is communicated with the second inner space, and the materials in the second inner space are conveyed out of the outer portion of the inner barrel.
In some embodiments, a spiral feeding structure is further disposed in the second inner space of the conveying device, and a second output port is further disposed at a position of the conveying device outside the outer barrel, and the spiral feeding structure can be driven to rotate so as to push the material in the second inner space to reach the position of the second output port and be discharged from the second output port.
In some embodiments, the receiving device is fixedly connected with the conveying device and is fixed relative to the outer cylinder, and the inner cylinder rotates relative to the receiving device; the feed pipe is fixed to the receiving device through a fixing portion.
In some embodiments, a back-blowing device is further disposed on the outer side of the top end of the inner cylinder, the back-blowing device is opposite to the opening of the receiving device, the back-blowing device can blow air to the inner wall of the inner cylinder so as to blow the separated solid materials on the inner side of the inner wall into the opening, and the back-blowing device is fixed to the outer cylinder.
In some embodiments, the system further comprises a third pipeline, a second container and a fourth pipeline, wherein one end of the third pipeline is communicated with the vacuum pump, the other end of the third pipeline is communicated with the inside of the second container so as to convey the gas in the vacuum pump into the second container, and one end of the fourth pipeline is communicated with the inside of the second container, and the other end of the fourth pipeline is communicated to the gas interface of the back flushing device.
In some embodiments, a compressor is further disposed on the fourth pipeline; and/or the vacuum pump further comprises a fifth pipeline, wherein one end of the fifth pipeline is communicated with the bottom of the second container, and the other end of the fifth pipeline is communicated to the inside of the vacuum pump.
In some embodiments, the gas-liquid separator further comprises a housing and a sixth pipeline, one end of the sixth pipeline is communicated with the second container, and the other end of the sixth pipeline is communicated with the interior of the housing, so that the gas in the second container can be led out into the housing;
the shell is also provided with a seventh pipeline, one end of the seventh pipeline is communicated with the inside of the shell, and the other end of the seventh pipeline extends out of the shell or is communicated with an inert gas environment; the casing the urceolus meets, the inside of casing with the inside seal of urceolus, the inside of casing with the inside intercommunication of inner tube.
In some embodiments, the device further comprises an eighth pipeline and a third container, the eighth pipeline is communicated with the second output port, the other end of the eighth pipeline is communicated with the third container, and a second discharge port is arranged at the bottom of the third container.
The vacuum drum filtering system provided by the present disclosure has the following beneficial effects:
1. the utility model adopts the structural form of the inner sleeve and the outer sleeve, the inner sleeve rotates relative to the outer sleeve, the material is introduced into the inner sleeve through the feeding pipe, and the material is sprayed out towards the inner wall of the inner cylinder, the inner part of the outer cylinder is vacuumized, the inner cylinder comprises a filtering structure, thereby the vacuum degree in the outer cylinder drives the material on the inner cylinder wall to be filtered and separated through the filtering structure, the fluid part can be separated and enter the outer cylinder, the solid part is intercepted by the filtering structure and returns to the inner cylinder, the rotation of the inner cylinder is matched with the feed pipe, the feed pipe is fixed, the material can be uniformly and greatly sprayed on the circumferential inner wall of the inner barrel, the spraying area is effectively increased, the distribution area in the circumferential direction of the inner barrel is increased, the uniform distribution is improved, further, the filtering and separating effects can be further increased, so that the filtering capacity and the filtering effect of the filter are improved; the axial length section inserted into the inner cylinder is further provided with a plurality of spray outlets or the spray outlets extend from one axial end to the other axial end of the inner cylinder through the feeding pipe, so that the distribution length of the spray outlets in the axial direction of the inner cylinder can be effectively increased, the distribution length of materials in the axial direction of the inner cylinder is further improved, the distribution area of the materials in the space is further improved, the distribution uniformity is enhanced, and the filtering and separating effects are further improved;
2. the receiving device can be effectively used for receiving the materials falling from the upper part of the inner cylinder wall through the receiving device and the conveying device, and the separated solid materials are effectively led out through the output of the conveying device; the blow-off function of the materials at the top of the inner cylinder can be enhanced through the arrangement of the back-blowing device, the materials are effectively blown out into the receiving device, the output function of the separated solid materials is enhanced, the subsequent material separation can be continuously carried out, and the filtering and separating capacity is improved;
3. the vacuum drum filtering system further utilizes the vacuum pump to pump the outer drum, and finally blows the pumped gas into the inner drum structure through the back blowing device so as to blow out solid materials, so that the gas can be recycled, the gas can be effectively utilized, the sealing performance of the inner drum, the outer drum and other parts of the vacuum drum filtering machine can be effectively enhanced, the part of gas can be protective gas, the effective protection effect on the filtering and separating process of the materials can be effectively achieved, the chemical reaction is prevented, the stability and the reliability of the operation of the vacuum drum filtering system are enhanced, and the separation efficiency is improved.
Drawings
FIG. 1 is an internal structural view of a vacuum drum filter of the present disclosure;
FIG. 2 is a left side view structural diagram of FIG. 1;
FIG. 3 is a cross-sectional view A-A of FIG. 1;
FIG. 3a is a partial enlarged view of portion B of FIG. 3;
fig. 4 is a block diagram of a vacuum drum filtration system of the present disclosure.
The reference numerals are represented as:
100. a vacuum drum filter; 1. an inner barrel; 11. a filter structure; 12. a fixed structure; 2. an outer cylinder; 21. a first output port; 3. a feed pipe; 31. an ejection port; 32. a barrier structure; 4. a receiving device; 41. an opening; 42. a first interior space; 5. a conveying device; 51. a second interior space; 52. a second output port; 6. a spiral feeding structure; 7. a fixed part; 8. a back flushing device; 81. a back-flushing gas interface; 9. a first motor; 10. a second motor; 13. a vacuum pump; 14. a first container; 141. a first discharge port; 15. a second container; 16. a compressor; 17. a housing; 171. a housing gas inlet; 172. a housing gas outlet; 18. a third container; 181. a second discharge port; 191. a first radial bearing; 192. a second radial bearing; 20. a flange; 22. a cooler; 101. a first pipeline; 102. a second pipeline; 103. a third pipeline; 104. a fourth pipeline; 105. a fifth pipeline; 106. a sixth pipeline; 107. a seventh pipeline; 108. and an eighth pipeline.
Detailed Description
As shown in fig. 1-4, the present disclosure provides a vacuum drum filter comprising:
The utility model adopts the structural form of the inner sleeve and the outer sleeve, the inner sleeve rotates relative to the outer sleeve, the material is introduced into the inner sleeve through the feeding pipe, and the material is sprayed out towards the inner wall of the inner cylinder, the inner part of the outer cylinder is vacuumized, the inner cylinder comprises a filtering structure, thereby the vacuum degree in the outer cylinder drives the material on the inner cylinder wall to be filtered and separated through the filtering structure, the fluid part can be separated and enter the outer cylinder, the solid part is intercepted by the filtering structure and returns to the inner cylinder, the rotation of the inner cylinder is matched with the feed pipe, the feed pipe is fixed, the material can be uniformly and greatly sprayed on the circumferential inner wall of the inner barrel, the spraying area is effectively increased, the distribution area in the circumferential direction of the inner barrel is increased, the uniform distribution is improved, and further the effect of filtration and separation can be further increased, thereby improving the filtration capacity and the filtration effect of the filter.
In some embodiments, the outer cylinder 2 is fixed, the inner cylinder 1 rotates, the feeding pipe 3 is fixed relative to the outer cylinder 2, and the inner cylinder 1 rotates relative to the feeding pipe 3. The outer cylinder of the present disclosure is stationary and the inner cylinder rotates within the outer cylinder. And the fixed outer cylinder 2 and the rotating inner cylinder 1 are sealed at the two ends in the axial direction, and a jacket formed by the two is a vacuum area. The inlet pipe is also fixed, can make the material that the inlet pipe sprays on the inner wall of inner tube drive each position department of circumference of evenly distributed to the inner tube by the rotation of inner tube, has increased the distribution area of material, has improved evenly distributed's length to the filter filtering capacity and the separation effect of filter have been increased.
In some embodiments, the pipe section of the feed pipe 3 located inside the inner drum 1 extends from one axial end of the inner drum 1 to the other axial end of the inner drum 1:
a plurality of the spray ports 31 are arranged on the pipe section of the feeding pipe 3 positioned in the inner cylinder 1 along the axial direction of the feeding pipe 3; or the spraying port 31 arranged on the pipe section of the feeding pipe 3 positioned in the inner cylinder 1 extends from one axial end of the inner cylinder 1 to the other axial end of the inner cylinder 1 along the axial direction of the feeding pipe 3.
The utility model discloses further through the inlet pipe be provided with a plurality of spouts or spout extend to the axial other end from inner tube axial one end on inserting the axial length section in the inner tube, can increase the distribution length of spout in the inner tube axial direction effectively, and then improve the distribution length of material in the inner tube axial direction, further improve the distribution area of material on the space, reinforcing distribution uniformity, further improve the effect of filtering separation.
In some embodiments, the inner cylinder 1 further includes a fixing structure 12, the fixing structure 12 is also a cylindrical structure, the fixing structure 12 is sleeved on the outer periphery of the filtering structure 11, and the fixing structure 12 includes a plurality of through hole structures penetratingly arranged from the inner wall to the outer wall thereof. The utility model discloses still can support effectively and fix filtration through fixed knot structure's setting to provide filtration's rigidity and support, and through a plurality of through-hole structures that inner wall to outer wall link up on the fixed knot structure, can also allow the fluid that filters out to get into in the urceolus when playing the supporting role.
Preferably, the through hole structures are uniformly distributed in the circumferential direction and the axial direction of the fixing structure to form a grid structure.
In some embodiments, the bottom of the outer cartridge 2 is provided with a first output port 21; and/or, in the cross section, two sides of the ejection port 31 of the feeding pipe 3 are provided with blocking structures 32 so as to drive the material to be directly ejected towards the inner wall of the inner barrel. The first output port is arranged at the bottom of the outer barrel, so that the fluid part separated by filtering can be conveyed out, the blocking structures are arranged on two sides of the ejection port of the feeding pipe, the material of the ejection port can be blocked, the material is prevented from directly falling into the inner barrel from a gap between the material and the inner wall without the action of filtering and separating between the material and the inner barrel wall, and the effect of filtering and separating is further effectively improved.
In some embodiments, the inner drum 1 is further provided with a receiving device 4 and a conveying device 5, the receiving device 4 has an opening 41 and a first inner space 42, the conveying device 5 has a second inner space 51, the opening 41 faces upward, the opening 41 can receive the material falling on the inner wall of the inner drum 1 above the opening 41, the first inner space 42 is communicated with the opening 41, the lower part of the first inner space 42 is communicated with the second inner space 51, and the solid material in the second inner space 51 is conveyed out of the inner drum 1. The receiving device can be effectively used for receiving the materials falling from the upper part of the inner cylinder wall through the receiving device and the conveying device, and the separated solid materials are effectively led out through the output of the conveying device; and still through the setting of blowback device, can strengthen the effect of blowing off of the material at the top of inner tube, effectively blow off the material to the receiving device in, strengthened the output effect to the solid material after the separation for subsequent material separation can be continuous going on, improved the ability of filtering separation.
In some embodiments, a screw feeding structure 6 is further disposed in the second inner space 51 of the conveying device 5, a second output port 52 is further disposed at a position of the conveying device 5 outside the outer barrel 2, and the screw feeding structure 6 can be driven to rotate to push the solid material in the second inner space 51 to the position of the second output port 52 and discharge the solid material from the second output port 52. This is disclosed still through the setting of spiral feeding structure, can rotate through its drive of motor, because spiral feeding structure is helical structure, consequently it can drive the material when the pivoted and carry out the transport effect of the linear direction as shown in the figure, carry out the solid part of separating out from the second delivery outlet.
In some embodiments, the receiving device 4 is fixedly connected to the conveying device 5 and is fixed relative to the outer cylinder 2, and the inner cylinder 1 rotates relative to the receiving device 4; the feed tube 3 is fixed to the receiving means 4 by means of a fixing portion 7. The supporting device and the conveying device are fixedly connected and do not rotate so as to support the separated solid part materials obtained by the supporting device through the conveying device, and the supporting device, the conveying device and the outer barrel are all fixed; the feeding pipe is fixed on the bearing device, the feeding pipe is also fixed, the feeding position can be guaranteed to be unchanged, the feeding pipe penetrates through a center hole of the flange 20 and enters the inner cylinder, the inner flange integrally connected with the inner cylinder rotates along with the inner cylinder, the outer flange integrally connected with the outer cylinder is fixed, the inner flange and the outer flange are sealed through a sealing ring, in order to reduce friction resistance between the inner flange and the outer flange, a second radial bearing is further arranged between the inner flange and the outer flange, the rotation of the inner cylinder is supported through the second radial bearing, and the fixing portion can effectively fix the feeding pipe on the bearing device. Preferably, the receiving device is preferably in the form of a collecting hopper.
In some embodiments, a back-blowing device 8 is further disposed on the outer side of the top end of the inner barrel 1, the back-blowing device 8 is opposite to the opening 41 of the receiving device 4, the back-blowing device 8 can blow air to the inner wall of the inner barrel 1 to blow the separated solid material on the inner side of the inner wall into the opening 41, and the back-blowing device 8 is fixed opposite to the outer barrel 2. This openly still through blowback device's setting, can strengthen the effect of blowing off of the material at the top of inner tube, effectively blow off the material to the receiving device in, strengthened the output effect to the solid material after the separation for subsequent material separation can last going on, has improved the ability of filtering separation.
In some embodiments, the device further comprises a first motor 9, the first motor 9 can drive the inner barrel 1 to rotate, one axial end of the inner barrel 1 driven by the first motor 9 is provided with a first radial bearing 191, the other axial end of the inner barrel 1 is provided with a flange 20, and a second radial bearing 192 is arranged between the flange 20 and the inner barrel 1; the spiral feeding mechanism further comprises a second motor 10, and the second motor 10 can drive the spiral feeding mechanism 6 to rotate. This is disclosed can drive the inner tube through first motor and rotate, can drive spiral pay-off structure through the second motor and rotate, and the axial one end of first motor drive inner tube carries out the supporting role to the inner tube through first journal bearing, carries out effectual support through the second journal bearing between the other end of inner tube and the flange to guarantee that the inner tube can last effectual rotation, filter the separation to the material.
The present disclosure also provides a vacuum drum filtration system, comprising:
a vacuum drum filter 100 and a vacuum pump 13, the vacuum pump 13 being communicable with the inside of the tub 2 to continuously or intermittently evacuate the tub 2.
The vacuum drum filtering system further utilizes the vacuum pump to pump the outer drum, and finally blows the pumped gas into the inner drum structure through the back blowing device so as to blow out solid materials, so that the gas can be recycled, the gas can be effectively utilized, the sealing performance of the inner drum, the outer drum and other parts of the vacuum drum filtering machine can be effectively enhanced, the part of gas can be protective gas, the effective protection effect on the filtering and separating process of the materials can be effectively achieved, the chemical reaction is prevented, the stability and the reliability of the operation of the vacuum drum filtering system are enhanced, and the separation efficiency is improved.
In some embodiments, the device further comprises a first container 14, a first pipeline 101 and a second pipeline 102, the bottom of the outer cylinder 2 is provided with a first output port 21, and the first container 14 is communicated with the first output port 21 through the first pipeline 101; the bottom of the first container 14 is provided with a first discharge port 141, the top of the first container 14 is communicated with one end of a second pipeline 102, and the other end of the second pipeline 102 is communicated to the vacuum pump 13. The present disclosure can effectively perform gas-liquid separation of the fluid separated in the outer tub by the arrangement of the first container, the gas is delivered to the vacuum pump (suction), and the liquid is discharged through the first discharge port.
In some embodiments, the system further comprises a third pipeline 103, a second container 15, and a fourth pipeline 104, wherein one end of the third pipeline 103 is communicated with the vacuum pump 13, and the other end is communicated with the inside of the second container 15 to convey the gas in the vacuum pump 13 into the second container 15, and one end of the fourth pipeline 104 is communicated with the inside of the second container 15, and the other end is communicated to the gas interface of the blowback device 8. This openly still can carry out further gas-liquid separation with the fluid of vacuum pump output end through the setting of second container to lead the gas interface of blowback device with the gas that separates out through the fourth pipeline, can realize the gaseous inner loop of vacuum rotary drum filter effectively, guarantee inside leakproofness, outside gas does not get into the inside of interior urceolus, can use inert gas to play the guard action to the material effectively.
In some embodiments, a compressor 16 is also disposed on the fourth conduit 104; and/or a fifth pipeline 105 is further included, one end of the fifth pipeline 105 is communicated with the bottom of the second container 15, and the other end of the fifth pipeline 105 is communicated to the inside of the vacuum pump 13. The back-blowing device can compress gas to enter the back-blowing device through the arrangement of the compressor to provide pressure; the setting of fifth pipeline can play the pressure balance between second container and the vacuum pump and sealed effect, prevents that the atmospheric pressure in the second container is greater than the vacuum pump and takes place the phenomenon that vacuum pump gas flows backward, guarantees that the vacuum pump lasts reliable effectual operation. At the same time, a cooler 22 is provided on the fifth pipe 105 to cool the sealed cooling liquid of the second container returned to the vacuum pump.
In some embodiments, the gas-liquid separator further comprises a housing 17 and a sixth pipeline 106, wherein one end of the sixth pipeline 106 is communicated with the second container 15, and the other end is communicated with the interior of the housing 17, so that the gas in the second container 15 can be led out to the housing 17. The shell and the sixth pipeline are arranged, so that residual gas after entering the back blowing device in the second container can be guided into the shell, the shell is used for storing redundant gas, and the shell can support the outer barrel.
In some embodiments, a seventh pipeline 107 is further disposed on the housing 17, and one end of the seventh pipeline 107 is communicated with the inside of the housing 17, and the other end of the seventh pipeline protrudes to the outside or is communicated with an inert gas environment; and/or, the shell 17 is connected with the outer cylinder 2, the interior of the shell 17 is sealed with the interior of the outer cylinder 2, the interior of the shell 17 is communicated with the interior of the inner cylinder 1, but a jacket formed by the shell 17 and the outer cylinder 2 and the inner cylinder 1 is sealed. The effect of casing 17 is first can be used for supporting structures such as conveyor, and the second can be used for conveniently maintaining and operating structures such as inside outer barrel, and the third is through leading-in casing 17 of sixth pipeline 106 with the overpressure gas to play pressure balance's effect. A vacuum formed by the space between the inner and outer cylinders can create a pressure differential between the inner and outer cylinders, driving fluid flow from the inner cylinder into the space between the inner and outer cylinders. In practice the housing 17 is of unitary construction with the outer barrel 2 (preferably integrally formed but with the housing communicating with the inner barrel and the space between the housing and the inner and outer barrels being sealed). The seventh pipeline can play a role in effectively relieving pressure or communicating with an inert gas environment, so that the operational reliability of the vacuum rotary drum filter is ensured; the sealing structures at multiple positions between the shell and the inner and outer cylinders can effectively ensure the operational reliability of the filter and provide enough vacuum degree required by filtering.
In some embodiments, the device further comprises an eighth pipeline 108 and a third container 18, the eighth pipeline 108 is communicated with the second output port 52, the other end of the eighth pipeline is communicated with the third container 18, and a second discharge port 181 is arranged at the bottom of the third container 18. This disclosure still can accept the solid material part that the second delivery outlet came out through the setting of third container to retrieve and discharge.
The above description is only exemplary of the present disclosure and should not be taken as limiting the disclosure, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure. The foregoing is only a preferred embodiment of the present disclosure, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present disclosure, and these modifications and variations should also be regarded as the protection scope of the present disclosure.
Claims (10)
1. A vacuum drum filtration system, characterized by: the method comprises the following steps:
vacuum rotary drum filter (100) and vacuum pump (13), the vacuum rotary drum filter includes: inner tube (1), urceolus (2) and inlet pipe (3), inner tube (1) is located by the cover in the inside of urceolus (2), just inner tube (1) can for urceolus (2) rotates, inlet pipe (3) are followed axial one end of inner tube (1) is inserted and is established and get into in the inner tube (1), in order to can to the inside of inner tube (1) lets in the material, be provided with spout (31) on the one side that the inner wall of inlet pipe (3) is relative with the inner wall of inner tube (1), make spout (31) can be towards the inner wall of inner tube (1) sprays the material, inner tube (1) includes filtration (11), filtration (11) can allow fluid portion to pass and get into in urceolus (2), simultaneously filtration (11) intercept can the solid part in inner tube (1), vacuum pump (13) can with the inside intercommunication of urceolus (2), so as to continuously or discontinuously evacuate the outer cylinder (2).
2. The vacuum drum filtration system of claim 1, wherein:
the device is characterized by further comprising a first container (14), a first pipeline (101) and a second pipeline (102), wherein a first output port (21) is formed in the bottom of the outer barrel (2), and the first container (14) is communicated with the first output port (21) through the first pipeline (101); the bottom of the first container (14) is provided with a first exhaust port (141), the top of the first container (14) is communicated with one end of a second pipeline (102), and the other end of the second pipeline (102) is communicated to the vacuum pump (13).
3. The vacuum drum filtration system of claim 1 or 2, wherein:
the inner barrel (1) is further provided with a bearing device (4) and a conveying device (5), the bearing device (4) is provided with an opening (41) and a first inner space (42), the conveying device (5) is provided with a second inner space (51), the opening (41) faces upwards, the opening (41) can bear materials falling on the inner wall of the inner barrel (1) above the opening, the first inner space (42) is communicated with the opening (41), the lower portion of the first inner space (42) is communicated with the second inner space (51), and the materials are conveyed out of the outer portion of the inner barrel (1) in the second inner space (51).
4. The vacuum drum filtration system of claim 3, wherein:
the conveying device is characterized in that a spiral feeding structure (6) is further arranged in the second inner space (51) of the conveying device (5), a second output port (52) is further formed in the position, located outside the outer barrel (2), of the conveying device (5), and the spiral feeding structure (6) can be driven to rotate so as to push materials in the second inner space (51) to reach the position of the second output port (52) and be discharged from the second output port (52).
5. The vacuum drum filtration system of claim 4, wherein:
the bearing device (4) is fixedly connected with the conveying device (5) and is fixed relative to the outer cylinder (2), and the inner cylinder (1) rotates relative to the bearing device (4); the feeding pipe (3) is fixed to the bearing device (4) through a fixing part (7).
6. The vacuum drum filtration system of any of claims 3-5, wherein:
the top outside of inner tube (1) still is provided with blowback device (8), blowback device (8) with receiving device (4) opening (41) are relative, blowback device (8) can be to the inner wall of inner tube (1) is bloied to blow the solid material after the separation of inner wall inboard to in opening (41), blowback device (8) with urceolus (2) relatively fixed.
7. The vacuum drum filtration system of claim 6, wherein:
the device is characterized by further comprising a third pipeline (103), a second container (15) and a fourth pipeline (104), wherein one end of the third pipeline (103) is communicated with the vacuum pump (13), the other end of the third pipeline is communicated with the inside of the second container (15) so as to convey gas in the vacuum pump (13) to the second container (15), one end of the fourth pipeline (104) is communicated with the inside of the second container (15), and the other end of the fourth pipeline is communicated to a gas interface of the back flushing device (8).
8. The vacuum drum filtration system of claim 7, wherein:
a compressor (16) is also arranged on the fourth pipeline (104); and/or a fifth pipeline (105), wherein one end of the fifth pipeline (105) is communicated with the bottom of the second container (15), and the other end of the fifth pipeline is communicated to the inside of the vacuum pump (13).
9. The vacuum drum filtration system of claim 7, wherein:
the gas purifier further comprises a shell (17) and a sixth pipeline (106), one end of the sixth pipeline (106) is communicated with the second container (15), and the other end of the sixth pipeline is communicated with the interior of the shell (17) so as to lead the gas in the second container (15) out of the shell (17);
a seventh pipeline (107) is further arranged on the shell (17), one end of the seventh pipeline (107) is communicated with the inside of the shell (17), and the other end of the seventh pipeline (107) extends towards the outside or is communicated with an inert gas environment; the shell (17) is connected with the outer cylinder (2), the interior of the shell (17) is sealed with the interior of the outer cylinder (2), and the interior of the shell (17) is communicated with the interior of the inner cylinder (1).
10. The vacuum drum filtration system of claim 4, wherein:
the device is characterized by further comprising an eighth pipeline (108) and a third container (18), wherein the eighth pipeline (108) is communicated with the second output port (52), the other end of the eighth pipeline is communicated with the third container (18), and a second discharge port (181) is formed in the bottom of the third container (18).
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