CN119236688A - A capsule filter slurry recovery system - Google Patents

Abstract

The invention discloses a capsule type filter element slurry recycling system which is used for recycling fluid in a capsule type filter element and comprises a base, a containing cavity, a top material passing structure, a middle shaking structure and a bottom movable structure, wherein the top material passing structure comprises an outer fixing sleeve, a pressure touch piece and a cylinder, the middle shaking structure comprises a lateral shaking piece and a bottom shaking piece, when the pressure touch piece is used for introducing external air, the lateral shaking piece and the bottom shaking piece on the capsule type filter element drive the capsule type filter element to shake so as to enable the fluid in the capsule type filter element to be discharged downwards, the bottom movable structure comprises a constraint sleeve, a hooping piece, a movable piece and a thimble, when the capsule type filter element is inserted into the constraint sleeve, the constraint sleeve and the hooping piece are clamped on the outer sides of a liquid inlet column and a liquid outlet column, and the thimble is inserted into the liquid inlet column and the liquid outlet column.

Description

Bag type filter element slurry recycling system

Technical Field

The invention relates to slurry recycling equipment, in particular to a capsule type filter core slurry recycling system.

Background

The capsule filter is also called an integrated filter, adopts a winding type inlet filter membrane, has large filtering surface area, is suitable for filtering a solution with a larger volume, and needs to replace a filter element of the filter after long-time use, but a part of previously treated residual materials often exist in the filter element at the moment, and if the part of residual materials are not treated, the later treatment cost of the filter element can be increased, and the waste of the residual materials can be caused.

The traditional method is that the inlet and outlet of the filter element are poked, so that fluid in the filter element can automatically flow downwards and be discharged under the action of gravity, but the recovery efficiency is quite low, meanwhile, the slurry is always recovered cleanly due to the strong viscosity of the fluid, so that the device for pumping negative pressure is directly connected to the inlet and outlet of the filter element in the prior art, the fluid in the filter element is pumped out in a negative pressure pumping mode, the downflow speed of the fluid in the filter element is greatly improved, in the folding filter element, the filter membranes are formed in a winding mode, the filter membranes are tightly adhered together, the fluid is difficult to be completely recovered in a short time only by virtue of pumping, and if the liquid is dragged for a long time, the loss of part of the fluid is caused due to volatility.

The scheme aims to provide a capsule type filter core slurry recovery system which can not only provide assistance for the discharge recovery of fluid through normal suction at the lower end, but also improve the fluidity of the fluid in a wound filter membrane at the top and middle positions, so that the recovery efficiency of the fluid is improved.

Disclosure of Invention

The invention provides a capsule type filter element slurry recycling system which can effectively solve the problems.

The invention is realized in the following way:

The utility model provides a bag formula filter core thick liquids recovery system for retrieve the fluid in the bag formula filter core, contain the base that is used for accepting the bag formula filter core, two holding chambers that are used for holding the bag formula filter core have been seted up to the lower extreme of base, bag formula filter core thick liquids recovery system still includes:

the top material passing structure comprises an outer fixing sleeve sleeved on the outer side of the bag-type filter element, the top of the outer fixing sleeve is provided with a pressure touch piece, the pressure touch piece is inserted into a communicated air column of the bag-type filter element, the pressure touch piece is driven by an air cylinder, the bottom of the air cylinder extends to the outer fixing sleeve, and when the bag-type filter element is mounted on the base, the outer fixing sleeve is sleeved on the outer side of the bag-type filter element and inserts the pressure touch piece into the bag-type filter element;

The middle shaking structure comprises a lateral shaking piece arranged on the outer side surface of the bag-type filter element, wherein the bottom of the bag-type filter element is provided with a bottom shaking piece;

The bottom movable structure comprises a constraint sleeve arranged in the middle section of the inside of the accommodating cavity, a liquid inlet column and a liquid outlet column of the bag-type filter element are inserted into the constraint sleeve, a hooping piece is clamped on the outer side of the constraint sleeve, a movable piece is arranged at the bottom of the accommodating cavity, a thimble is arranged in the movable piece, when the bag-type filter element is inserted into the constraint sleeve, the constraint sleeve and the hooping piece are clamped on the outer sides of the liquid inlet column and the liquid outlet column, and the thimble is inserted into the liquid inlet column and the liquid outlet column.

As a further improvement, a square locking plate is arranged on the outer side of the outer fixing sleeve, and the outer fixing sleeve is fixedly connected to the base through the locking plate.

As a further improvement, a transverse moving frame is arranged at the output end of the air cylinder, the pressure touch piece comprises a control end movably connected with the transverse moving frame, the control end is connected with a transmission pipeline, and the transmission pipeline is connected to a pressure pump.

As a further improvement, the control end is a manual control valve plate or an electric control valve.

As a further improvement, the lateral vibration member comprises an inner adhesive block adhered to the outer side of the bag-type filter element, wherein one side of the inner adhesive block is provided with a swinging spring, and the side swinging spring is locked on the inner side wall of the outer fixing sleeve through an outer fixing block.

As a further improvement, the bottom vibration piece comprises an oblique mounting block fixedly connected to the base, an oblique supporting spring is arranged on the oblique mounting block, an oblique jacking block is arranged at the upper end of the oblique supporting spring, and the oblique jacking block supports the bottom surface of the bag-type filter element.

As a further improvement, the constraint sleeve comprises a transverse constraint section fixedly connected to the inner side wall of the accommodating cavity and a longitudinal constraint section connected to the lower end of the transverse constraint section and integrally formed, wherein the transverse constraint section and the longitudinal constraint section are attached to the outer sides of the liquid inlet column and the liquid outlet column of the bag-type filter element.

As a further improvement, the tightening piece comprises an elastic arc ring arranged outside the longitudinal binding section, and an elastic rod is connected to the outer side of the elastic arc ring and fixedly connected to the inner side wall of the accommodating cavity.

As a further improvement, the movable piece comprises a turnover ring arranged at the bottom of the accommodating cavity, a movable button is arranged on the inner side of the turnover ring, and the thimble is inserted into the movable button.

As a further improvement, the top surface of the thimble is flexibly connected with the liquid inlet column and the liquid outlet column, and the swing amplitude of the thimble is smaller than 10 degrees.

The beneficial effects of the invention are as follows:

The traditional filter element recovery device only adopts a negative pressure pumping mode at the bottom, but the purpose of pumping out the fluid in the filter element can be achieved, but the recovery efficiency is very slow, the fluid is volatilized and wasted easily, and the recovery progress is influenced simultaneously, so the invention inserts the pressure touch piece into the communicated air column of the bag type filter element through the cylinder after the bag type filter element is fixed through the arranged top material passing structure, the pressure is applied through the position of the communicated air column at the top, the fluid between the filter membranes is downwards extruded through the inert gas which does not react with the fluid, so that the downward discharging speed of the fluid is increased, the overall recovery efficiency of the filter element is improved, the pressure touch piece can be directly lifted again through the air cylinder after a single filter element is recovered, the filter elements can be treated in batches and rapidly, the treatment cost is reduced on one hand, and the utilization of waste materials is improved on the other hand.

In order to fix the basic position of the whole bag type filter element during air extraction, the invention prevents the position deviation of the bag type filter element from being limited, and locks the outer fixing sleeve to the base, so that the middle shaking structure can be arranged on the inner side of the outer fixing sleeve, and the outer fixing sleeve and the base can be separated after the treatment of the single filter element is finished, thereby ensuring stable connection and separation and facilitating the replacement of the filter element.

After the outer fixing sleeve and the base are separated, the pressure touch piece is also required to be separated from the bag-type filter element, so that the bag-type filter element can be taken out and replaced by a new filter element to be recycled again.

Because the filter membranes are wound together, the gap between the membranes is smaller, and the top ventilation has a certain effect, but the effect is smaller in practice, therefore, the invention sets the middle shaking structure on the basis of the top ventilation structure, and utilizes the vibration of the filter membrane and the vibration of the whole filter element shell when the top ventilation structure is used for ventilation, the whole bag type filter element is movably mounted through the lateral vibration piece and the bottom vibration piece, the whole filter element shakes when the gas is introduced, and the shaking amplitude is larger under the action of the lateral vibration piece and the bottom vibration piece, so that the downward drainage speed of fluid is faster, and more filter elements can be processed in a short time.

The lateral vibration piece is not fixed, otherwise, the lateral vibration piece is difficult to separate in the stage of inserting and extracting the bag-type filter element, so that the lateral vibration piece is fixed on the bag-type filter element through the inner bonding block, and the outer fixing block is locked through the outer part of the outer fixing sleeve after the outer fixing sleeve is installed, so that the effects of fixedly connecting two ends and disassembling the single end are achieved.

The bottom vibration piece is not in a positive setting, and is in an inclined setting mode, the bag type filter element is slightly supported, the inclined ejector block can be supported at the lower end position of the bag type filter element, the direction change is carried out along with the direction change of the bag type filter element, the effect of the direction change can be realized by the bag type filter element, meanwhile, the inclination of an excessive angle can be avoided, and the phenomenon that the bag type filter element cannot be reset is avoided.

If the whole bag filter element shakes, the outer side of the bag filter element can obviously not be set to be in a movable state, and the bottom of the bag filter element also has to be set to be in a movable state, so the invention sets a bottom movable structure on the basis of a middle shaking structure, firstly, the movable assembly is ensured and a certain left and right limiting effect is provided through the movable fixation of an adaptable binding sleeve and a tightening piece on a liquid inlet column and a liquid outlet column of the bag filter element, and the ejector pin at the bottom is also arranged in the movable piece, so that the position of the ejector pin is also adjustable, the main body part and the bottom connecting part of the whole bag filter element can be made into movable arrangement, and the vibration effect caused by the air introduced is adapted, so that the integral recovery efficiency is improved.

Because the liquid inlet column and the liquid outlet column of different bag-type filter cores are possibly different in size, the bottom movable structure is difficult to set in size, and therefore, the binding sleeve provided by the invention adopts a two-section movable binding type design, the transverse binding section and the longitudinal binding section can be spread out no matter how large the inserted tubular column is, the flexible binding of the liquid inlet column and the liquid outlet column is realized, and meanwhile, the lateral auxiliary limit is carried out on the outer side of the longitudinal binding section through the binding piece, so that the suitability of the binding sleeve is improved.

The movable arrangement at the bottom part ensures that the thimble cannot be fixedly arranged, so that the thimble is movably arranged on the movable piece, and the thimble can rotate along the movable button in the process of moving along with the liquid inlet column and the liquid outlet column of the bag-type filter element, thereby realizing the position change, and the bottom part is not influenced because the thimble is connected with equipment for pumping negative pressure through a hose.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic top view of the present invention.

Figure 3 is a cross-sectional view of the invention at A-A in figure 2.

Fig. 4 is a schematic structural view of the side vibration member of the present invention.

Fig. 5 is a schematic view of the structure of the base vibration member of the present invention.

FIG. 6 is a schematic view of the configuration of the binding sleeve, cinch member of the present invention (first angle).

FIG. 7 is a schematic view of the structure of the binding sleeve, the tightening piece of the present invention (second angle).

Fig. 8 is a schematic structural view of a movable member of the present invention.

In the figure:

The capsule-type filter cartridge 10, the base 20, the accommodating chamber 21, the outer fixing sleeve 31, the locking plate 311, the pressure touch member 32, the control end 321, the transmission pipeline 322, the pressure pump 323, the cylinder 33, the traversing rack 331, the middle shaking structure 40, the lateral shaking member 41, the inner bonding block 411, the shaking spring 412, the outer fixing block 413, the bottom shaking member 42, the inclined mounting block 421, the inclined supporting spring 422, the inclined jacking block 423, the bottom movable structure 50, the binding sleeve 51, the transverse binding section 511, the longitudinal binding section 512, the tightening member 52, the elastic arc ring 521, the elastic rod 522, the movable member 53, the turnover ring 531, the movable button 532 and the thimble 54.

Detailed Description

For the purpose of making embodiments of the present invention fall within the scope of the present invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as referring to purposes, technical solutions and advantages of the present invention in any way. All other implementations, which can be derived by a person skilled in the art without making any inventive effort, show or imply relative importance or implicitly indicate the number of technical features indicated on the basis of the implementations in the invention. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to figures 1-8, a system for recovering fluid in a bag filter cartridge 10 comprises a base 20 for receiving the bag filter cartridge 10, wherein two accommodating cavities 21 for accommodating the bag filter cartridge 10 are formed at the lower end of the base 20, the system further comprises a top material passing structure, an outer fixing sleeve 31, a clamping and pressing part and a movable sleeve 53, wherein the outer fixing sleeve 31 is sleeved on the outer side of the bag filter cartridge 10, the top of the outer fixing sleeve 31 is provided with a pressure touch part 32, the pressure touch part 32 is inserted into a communicating air column of the bag filter cartridge 10, the bottom of the pressure touch part 32 is driven by a cylinder 33, the bottom of the cylinder 33 extends to the outer fixing sleeve 31, after the bag filter cartridge 10 is mounted on the base 20, the outer fixing sleeve 31 is sleeved on the outer side of the bag filter cartridge 10 and inserts the pressure touch part 32 into the bag filter cartridge 10, the middle shaking structure 40 comprises a side vibration part 41 arranged on the outer side surface of the bag filter cartridge 10, the bottom of the bag filter cartridge 10 is provided with a bottom part 42, when the pressure touch part 32 is tightly inserted into the inner sleeve 51 of the bag filter cartridge 10, the clamping and pressing part 51 is clamped by the clamping and pressing part 51 is arranged in the middle part 52, the inner sleeve 51 is clamped by the clamping and pressing part 51, the inner sleeve 51 is arranged in the middle part is clamped by the middle part, and the clamping part is provided with a liquid sleeve 51, and the liquid inlet sleeve 51 is clamped by the middle part is clamped by the sleeve 51, and the middle part is clamped by the clamping part and the sleeve and the middle part is provided with a liquid sleeve and the middle part, and the middle part is provided with a vibration sleeve and a vibration sleeve. And the ejector pins 54 are inserted into the liquid inlet column and the liquid outlet column.

When in use, inert gas is introduced into the capsule type filter element 10, and the inert gas does not react with fluid in the filter element, and can also play a role in boosting.

The traditional filter element recovery device only adopts a negative pressure pumping mode at the bottom, although the purpose of pumping out the fluid in the filter element can be achieved, the recovery efficiency is very low, the fluid is volatilized and wasted easily, and the recovery progress is influenced simultaneously, so the pressure touch piece 32 is inserted into the communication air column of the bag filter element 10 through the air cylinder 33 after the bag filter element 10 is fixed, the pressure is applied through the position of the communication air column at the top, the fluid between the filter membranes is extruded downwards through the inert gas which does not react with the fluid, the fluid drainage speed is increased, the overall recovery efficiency of the filter element is improved, the pressure touch piece 32 can be directly lifted again through the air cylinder 33 after the single filter element is recovered, the filter element can be processed in batches and rapidly, the processing cost is reduced on one hand, and the utilization of waste materials is improved on the other hand.

In order to fix the basic position of the whole bag filter element 10 during air extraction, the position deviation of the bag filter element 10 is not limited, a square locking plate 311 is arranged on the outer side of the outer fixing sleeve 31 in the embodiment, the outer fixing sleeve 31 is fixedly connected on the base 20 through the locking plate 311, the middle shaking structure 40 can be arranged on the inner side of the outer fixing sleeve 31 by locking the outer fixing sleeve 31 on the base 20, and the outer fixing sleeve 31 and the base 20 can be separated after the treatment of a single filter element, so that the stable connection can be ensured, the separation can be ensured, and the filter element can be conveniently replaced.

After the outer fixing sleeve 31 is separated from the base 20, the pressure touch member 32 is required to be separated from the bag-type filter element 10, so that the bag-type filter element 10 can be taken out and replaced with a new filter element to be recycled, therefore, the output end of the air cylinder 33 of the embodiment is provided with a transverse moving frame 331, the pressure touch member 32 comprises a control end 321 movably connected with the transverse moving frame 331, the control end 321 is connected with a transmission pipeline 322, the transmission pipeline 322 is connected to a pressure pump 323, the control end 321 of the pressure touch member 32 is connected with the transverse moving frame 331 of the air cylinder 33, when the filter element is in a recycling stage, the control end 321 is moved downwards through the air cylinder 33, and when the filter element is recycled, the control end 321 is lifted up through the air cylinder 33, so that the position of the control end 321 is switched, and the practical effect of the invention is improved.

When the viscosity of the fluid in the filter element is less than 6000CP, the control end 321 in this embodiment is a manual control valve plate, and provides a switching force of 1-1.5 kg, and when the viscosity of the fluid in the filter element is greater than 6000CP, the control end 321 in this embodiment is an electric control valve, and provides a switching force of 2.5-3 kg.

Because the filter membranes are wound together entirely, the gap between the membranes is smaller, although the top ventilation has a certain effect, the effect is smaller in practice, therefore, the invention sets the middle shaking structure 40 on the basis of the top ventilation structure, and the whole bag filter element 10 is movably mounted through the lateral vibration piece 41 and the bottom vibration piece 42 by utilizing the vibration of the filter membrane and the vibration of the whole filter element shell when the top ventilation structure is used for ventilation, the whole filter element shakes when the gas is introduced, and the shaking amplitude is larger under the action of the lateral vibration piece 41 and the bottom vibration piece 42, so that the downward drainage speed of fluid is faster, and more filter elements can be processed in a short time.

The lateral vibration member 41 of the present embodiment includes an inner adhesive block 411 adhered to the outer side of the capsule-shaped filter element 10, a side shaking spring 412 is disposed on the outer side of the inner adhesive block 411, the side shaking spring 412 is locked on the inner side wall of the outer fixing sleeve 31 by an outer fixing block 413, and the lateral vibration member 41 is not fixedly disposed, otherwise, it is difficult to separate the lateral vibration member 41 in the plugging stage of the capsule-shaped filter element 10, so that the entire lateral vibration member 41 is fixed on the capsule-shaped filter element 10 by the inner adhesive block 411, and the outer fixing block 413 is locked by the outer part of the outer fixing sleeve 31 after the outer fixing sleeve 31 is installed, thereby realizing the effect that both ends are fixedly connected but only one end is detachable.

The bottom vibration piece 42 of this embodiment includes an oblique installation piece 421 of rigid coupling on the base 20, be provided with an oblique supporting spring 422 on the oblique installation piece 421, the upper end of oblique supporting spring 422 is provided with the oblique kicking piece 423, the bottom surface of bag filter core 10 is supported to the oblique kicking piece 423, and bottom vibration piece 42 is not the forward setting, and it adopts the slope mode that sets up, slightly holds bag filter core 10, and the oblique kicking piece 423 can support in the lower extreme position of bag filter core 10, and the diversion along with bag filter core 10's diversion changes the direction, can let bag filter core 10 realize the effect of diversion, can not take place too big angle slope again simultaneously, avoids the phenomenon that can't reset.

If the whole bag filter element 10 shakes, the outer side of the bag filter element 10 cannot be set to be in an active state obviously, and the bottom of the bag filter element 10 must be set to be in an active state, so that the bottom active structure 50 is set on the basis of the middle shaking structure 40 in the embodiment, firstly, the liquid inlet column and the liquid outlet column of the bag filter element 10 are actively fixed through the adaptable constraint sleeve 51 and the tightening piece 52, a certain left-right limiting effect is ensured during active assembly, and the ejector pins 54 at the bottom are also arranged in the movable piece 53, so that the positions of the ejector pins 54 can be adjusted, the main body part and the bottom connecting part of the whole bag filter element 10 can be set to be in an active state, the vibration effect caused by the air introduced is adapted, and the integral recovery efficiency is improved.

Because the sizes of the liquid inlet column and the liquid outlet column of different capsule-type filter elements 10 may be different, the bottom movable structure 50 is difficult to set up in size, therefore, the binding sleeve 51 of this embodiment includes a lateral binding section 511 fixedly connected to the inner side wall of the accommodating cavity 21, and a longitudinal binding section 512 integrally formed and connected to the lower end of the lateral binding section 511, the lateral binding section 511 and the longitudinal binding section 512 are attached to the outer sides of the liquid inlet column and the liquid outlet column of the capsule-type filter elements 10, the binding sleeve 51 adopts a two-section movable binding design, and can stretch the lateral binding section 511 and the longitudinal binding section 512 regardless of the size of an inserted pipe column, so as to realize flexible binding of the liquid inlet column and the liquid outlet column, and meanwhile, the outer side of the longitudinal binding section 512 is also laterally limited by a hoop 52, the hoop 52 includes an elastic arc ring 521 arranged at the outer side of the longitudinal binding section 512, and an elastic rod 522 is connected to the outer side of the elastic arc ring 521, and the elastic rod 522 is fixedly connected to the inner side wall of the accommodating cavity 21, so that the adaptability of the elastic rod 522 is improved.

The movable arrangement at the bottom makes the arrangement of the thimble 54 unable to adopt a fixed installation mode, so that the thimble 54 of this embodiment is movably mounted on the movable member 53, the movable member 53 includes a turnover ring 531 disposed at the bottom of the accommodating cavity 21, a movable button 532 is disposed at the inner side of the turnover ring 531, the thimble 54 is inserted in the movable button 532, and the thimble 54 rotates along the movable button 532 in the process of moving along with the liquid inlet column and the liquid outlet column of the capsule filter element 10, thereby realizing position conversion, and the bottom is not affected due to connection between a hose and a device for pumping negative pressure.

In order to prevent the arrangement of the thimble 54 from interference of the liquid inlet column and the liquid outlet column, the top surface of the thimble 54 is flexibly connected with the liquid inlet column and the liquid outlet column, and the swing amplitude of the thimble 54 is smaller than 10 degrees.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A capsule filter element slurry recovery system for recovering fluid in a capsule filter element (10), comprising a base (20) for receiving the capsule filter element (10), wherein the base (20) has two accommodating cavities (21) for accommodating the capsule filter element (10) at the lower end thereof, characterized in that the capsule filter element slurry recovery system further comprises: A top material passing structure, comprising an outer fixing sleeve (31) sleeved on the outside of the capsule filter element (10), a pressure trigger (32) being arranged on the top of the outer fixing sleeve (31), the pressure trigger (32) being inserted into the connecting air column of the capsule filter element (10), the pressure trigger (32) being driven by a cylinder (33), the bottom of the cylinder (33) extending onto the outer fixing sleeve (31), and when the capsule filter element (10) is mounted on the base (20), the outer fixing sleeve (31) is sleeved on the outside of the capsule filter element (10) and the pressure trigger (32) is inserted into the capsule filter element (10); The middle shaking structure (40) comprises a lateral vibration member (41) arranged on the outer side of the capsule filter element (10), and a bottom vibration member (42) is arranged at the bottom of the capsule filter element (10); when external gas is introduced into the pressure-actuating member (32), the lateral vibration member (41) and the bottom vibration member (42) on the capsule filter element (10) drive the capsule filter element (10) to shake, so that the fluid in the capsule filter element (10) is discharged downward; The bottom movable structure (50) comprises a restraining sleeve (51) arranged in the middle section of the interior of the accommodating chamber (21); the liquid inlet column and the liquid outlet column of the capsule filter element (10) are inserted into the restraining sleeve (51); a clamping piece (52) is clamped on the outer side of the restraining sleeve (51); a movable piece (53) is arranged at the bottom of the accommodating chamber (21); a ejector pin (54) is installed in the movable piece (53); when the capsule filter element (10) is inserted into the restraining sleeve (51), the restraining sleeve (51) and the clamping piece (52) are clamped on the outer sides of the liquid inlet column and the liquid outlet column, and the ejector pin (54) is inserted into the liquid inlet column and the liquid outlet column. 2. A capsule filter element slurry recovery system according to claim 1, characterized in that a square locking plate (311) is provided on the outer side of the outer fixing sleeve (31), and the outer fixing sleeve (31) is fixedly connected to the base (20) through the locking plate (311). 3. A capsule filter element slurry recovery system according to claim 2, characterized in that a transverse frame (331) is provided on the output end of the cylinder (33), the pressure trigger (32) includes a control end (321) movably connected to the transverse frame (331), the control end (321) is connected to a transmission pipe (322), and the transmission pipe (322) is connected to a pressure pump (323). 4. A capsule filter cartridge slurry recovery system according to claim 3, characterized in that the control end (321) is a manual control valve plate, or the control end (321) is an electric control valve. 5. A capsule filter element slurry recovery system according to claim 1, characterized in that the lateral vibration member (41) comprises an inner bonding block (411) glued to the outer side of the capsule filter element (10), and a side rocking spring (412) is arranged on the outer side of the inner bonding block (411), and the side rocking spring (412) is locked to the inner wall of the outer fixing sleeve (31) through an outer fixing block (413). 6. A capsule filter cartridge slurry recovery system according to claim 4, characterized in that the bottom vibration member (42) comprises an oblique mounting block (421) fixedly connected to the base (20), an oblique support spring (422) is provided on the oblique mounting block (421), an oblique top block (423) is provided at the upper end of the oblique support spring (422), and the oblique top block (423) supports the bottom surface of the capsule filter cartridge (10). 7. A capsule filter element slurry recovery system according to claim 1, characterized in that the restraining sleeve (51) comprises a transverse restraining section (511) fixedly connected to the inner side wall of the accommodating cavity (21), and a longitudinal restraining section (512) connected to the lower end of the transverse restraining section (511) and integrally formed, and the transverse restraining section (511) and the longitudinal restraining section (512) are attached to the outer sides of the liquid inlet column and the liquid outlet column of the capsule filter element (10). 8. A capsule filter cartridge slurry recovery system according to claim 7, characterized in that the clamping member (52) comprises an elastic arc ring (521) arranged on the outside of the longitudinal restraining section (512), and an elastic rod (522) is connected to the outside of the elastic arc ring (521), and the elastic rod (522) is fixed to the inner wall of the accommodating cavity (21). 9. A capsule filter cartridge slurry recovery system according to claim 1, characterized in that the movable part (53) comprises a revolving ring (531) arranged at the bottom of the accommodating chamber (21), a movable button (532) is arranged on the inner side of the revolving ring (531), and the ejector pin (54) is inserted into the movable button (532). 10. A capsule filter element slurry recovery system according to claim 9, characterized in that the top surface of the ejector pin (54) is flexibly connected to the liquid inlet column and the liquid outlet column, and the swing amplitude of the ejector pin (54) is less than 10°.