CN107398110A

CN107398110A - A kind of filter of automatically replaceable filter core

Info

Publication number: CN107398110A
Application number: CN201710776962.XA
Authority: CN
Inventors: 施明
Original assignee: Suzhou Sbasoo Automation Environmental Protection Equipment Co Ltd
Current assignee: Suzhou Sbasoo Automation Environmental Protection Equipment Co Ltd
Priority date: 2017-09-01
Filing date: 2017-09-01
Publication date: 2017-11-28

Abstract

The invention discloses a kind of filter of automatically replaceable filter core, including base, support, the first servomotor, leading screw, feed nut, slide, bracket, cylinder, push pedal, rotating shaft, first gear, tapered end, it is arranged symmetrically along the tapered end magnet, the second servomotor, second gear, fixed mount, cylinder, liquid separation mechanism, filter core mechanism that quantity is 2, retaining mechanism of the quantity no less than 2, rack is evenly arranged along the cylinder.The apparatus structure is simple, filter core mechanism can be changed automatically, greatly reduce labor intensity of operating staff, improve production efficiency, simultaneously, the filter core mechanism that operating personnel only need to change takes away and places the filter core mechanism of cleaning, it is not necessary in working site stay longer, is not easy to cause damage to operating personnel's body.

Description

A kind of filter of automatically replaceable filter core

Technical field

The present invention relates to a kind of mechanical device, more particularly to a kind of filter of automatically replaceable filter core.

Background technology

With industrial expansion and the improvement of people's living standards, the craving to the energy is also continuously increased, in coal-fired flue-gas SO2 the main reason for having become atmosphere pollution, reduce SO2 pollutions turns into the task of top priority that current atmospheric environment is administered, Many flue gas desulfurization technique extensive uses in the industry, wherein, Wet Flue Gas Desulfurization Technique with its technology maturation, technique it is simple and It is widely used, the technical process of wet desulphurization is typically as follows：The de- of alkaline decoction is filled by being passed directly into after flue gas removing dust Sulphur can carry out neutralization reaction in filling, reacted solution, which circulates to be pumped into desulfurizing tower after filtering, carries out neutralization reaction and according to PH Value complement fills decoction, until desulfurization is completed.Due to needing to use the filter with filter core during filtering, and filter core is using one section Need to carry out cleaning and maintenance after time, existing method mostly manually changes filter core, and not only time-consuming, and stops for a long time Operating personnel's health is caused damage in the working site of also sulfide.In view of disadvantages described above, is necessary design one in fact The filter of the automatically replaceable filter core of kind.

The content of the invention

The technical problems to be solved by the invention are：A kind of filter of automatically replaceable filter core is provided, to solve Changing filter core manually, time-consuming and stops the problem of operating personnel's health is damaged in working site for a long time.

In order to solve the above technical problems, the technical scheme is that：A kind of filter of automatically replaceable filter core, bag Include base, support, the first servomotor, leading screw, feed nut, slide, bracket, cylinder, push pedal, rotating shaft, first gear, lock Head, the magnet, the second servomotor, second gear, fixed mount, cylinder, liquid separation machine that quantity is 2 are arranged symmetrically along the tapered end Structure, filter core mechanism, retaining mechanism of the quantity no less than 2, rack are evenly arranged along the cylinder, described support is located at bottom Seat upper end, described support are connected with whorl of base, and the first described servomotor is located at pedestal upper end, the first described servo Motor is connected with support screw thread, and described leading screw is located at the first servomotor side and is located at pedestal upper end, described leading screw with First servomotor screw thread is connected and is connected with holder pivots, and described leading screw through feeds nut, described leading screw and feeding Nut thread is connected, and described slide is located on the outside of feed nut and is located at pedestal upper end, described slide and feed nut spiral shell Line is connected and is connected with bracket slide, and described bracket is located at slide lower end, and described bracket is connected with slide screw thread, described Cylinder is located at bracket side, and described cylinder is connected with bracket screw thread, and described push pedal is located at cylinder lower end, described push pedal with Cylinder screw thread is connected, and described rotating shaft is located at push pedal lower end, and described rotating shaft is rotatedly connected with push pedal, described first gear position On the outside of rotating shaft, described first gear is connected with rotating shaft key, and described tapered end is located at rotating shaft lower end, described tapered end and rotating shaft Screw thread is connected, and described magnet is located on the outside of tapered end, and described magnet is connected with tapered end screw thread, the second described servomotor position In push pedal upper end, the second described servomotor is connected with push pedal screw thread, and described second gear is located under the second servomotor Hold and on the outside of first gear, described second gear is connected with the second servomotor close-fitting and engages phase with first gear Even, described fixed mount is located at pedestal lower end, and described fixed mount is connected with support screw thread, and described cylinder is located at fixed mount one Side, described cylinder are connected with fixed mount screw thread, and described liquid separation mechanism is located at cylinder lower end, described liquid separation mechanism and cylinder It is weldingly connected, described filter core mechanism is located at cylinder upper end, and described filter core mechanism is connected with cylinder, and described cylinder is additionally provided with Retaining mechanism, described retaining mechanism are connected with cylinder screw, and described rack is located at base upper end, described rack with Whorl of base is connected.

Further improvement of the invention is as follows：

Further, described cylinder is additionally provided with the first pipe joint, and the first described pipe joint is located at cylinder outer upper end, The first described pipe joint is connected with barrel soldering.

Further, described outflow mechanism also includes baffle-box, branch pipe, sealing ring, the second pipe joint, described buffering Case is located at cylinder lower end, and described baffle-box is connected with barrel soldering, and described branch pipe is located at baffle-box upper end, described branch pipe It is connected with baffle-box screw thread, described branch pipe is additionally provided with sealing ring, and described sealing ring is connected with branch pipe close-fitting, and described second Pipe joint is located at baffle-box lower end, and the second described pipe joint is weldingly connected with baffle-box, and medium filters laggard through filter core mechanism Enter branch pipe, then enter back into baffle-box, most flowed out afterwards through the second pipe joint, sealing ring is used to seal connecing for filter core mechanism and branch pipe Contacting surface.

Further, it is many to be also evenly arranged quantity including top cover, spacing gland, along the top cover for described filter core mechanism In the guide rod, filter core, sealing gasket of 2, described spacing gland is located at top cover upper end, described spacing gland and top cover screw thread phase Even, described guide rod is located at top cover lower end and is located at cylinder upper end, described guide rod be connected with top cover close-fitting and with cylinder gap It is connected, described filter core is located at top cover lower end and is located at branch pipe upper end, and described filter core is connected with top cover screw thread and between branch pipe Gap is connected, and described sealing gasket is located at top cover lower end, and described sealing gasket is connected with top cover close-fitting.

Further, described top cover is additionally provided with lock slots, and described lock slots are located at top cover top center, described Lock slots are not through top cover.

Further, described spacing gland is additionally provided with anti-shape groove, and described anti-shape groove is located at spacing gland center, institute The anti-shape groove stated runs through spacing gland, and during dismounting, tapered end is stretched into lock slots through anti-shape groove, and the second servomotor rotates set angle Degree, so as to drive first gear to rotate set angle by second gear, so as to drive tapered end to rotate set angle so that magnet With top cover adhesive, cylinder action, under the barrier effect of anti-shape groove, guide rod departs from retaining mechanism, so as to which filter core mechanism be pulled out Go out.

Further, described guide rod is additionally provided with indent, and described indent is located on the outside of guide rod, described indent not through Guide rod.

Further, described retaining mechanism also includes adjusting screw, spring, pressure head, and described adjusting screw stretches into cylinder Body, described adjusting screw are connected with cylinder screw, and described spring is located on the right side of adjusting screw, described spring and regulation spiral shell Nail is movably connected, and described pressure head is located on the right side of spring, and described pressure head is weldingly connected with spring, and pressure head is with being arranged on guide rod Indent cooperate, so that guide rod be fixed, and then filter core mechanism is fixed, the i.e. adjustable pressure head of regulation spring To the thrust of guide rod.

Compared with prior art, the filter of the automatically replaceable filter core, during work, decoction is carried out through the first pipe joint In cylinder, through flowing out mechanism outflow after the filtering of filter core mechanism, you can complete filtering；During replacing, it is pre-placed on mounting table Multiple clean filter core mechanisms, cylinder action, promote push pedal to move down in place, and now, tapered end, which passes through, is arranged on the anti-of spacing gland Shape groove, the work of the second servomotor rotates set angle, so as to drive first gear to rotate set angle by second gear, from And tapered end is driven to rotate set angle so that magnet and top cover adhesive, cylinder action, under the barrier effect of anti-shape groove, guide rod Depart from retaining mechanism, so as to which filter core mechanism be extracted, then, the first servomotor drives leading screw to rotate setting position, so as to The slide movement setpoint distance being connected with feed nut is driven, and then drives bracket movement setpoint distance, cylinder action, promotes filter Core mechanism moves down insertion rack, and then, the second servomotor rotates backward set angle, cylinder reset drive tapered end with it is spacing Gland separate, then, the first servomotor rotate set angle, so as to drive tapered end move to cleaning filter core mechanism just on Side, cylinder action, tapered end pass through the anti-shape groove for being arranged on spacing gland, and the work of the second servomotor rotates set angle so that Magnet and top cover adhesive, cylinder reset, and the first servomotor rotates set angle so that filter core mechanism kinematic to cylinder just on Side, then, cylinder action promote filter core mechanism to move down in insertion tube body, and the indent on pressure head and guide rod in retaining mechanism is mutual Coordinate, so as to which guide rod be fixed, and then filter core mechanism is fixed, so as to complete the replacing of filter core mechanism.The device It is simple in construction, filter core mechanism can be changed automatically, greatly reduces labor intensity of operating staff, improve production efficiency, meanwhile, operator Member only needs that the filter core mechanism changed is taken away to and placed the filter core mechanism of cleaning, it is not necessary to is stopped in working site Long period, it is not easy to cause damage to operating personnel's body.

Brief description of the drawings

Fig. 1 shows front view of the present invention

Fig. 2 shows present invention outflow mechanism structure schematic diagram

Fig. 3 shows filter core mechanism structure schematic diagram of the present invention

Fig. 4 shows top cover graphics of the present invention

Fig. 5 shows the spacing gland graphics of the present invention

Fig. 6 shows locking mechanism structure schematic diagram of the present invention

The support 2 of base 1

The leading screw 4 of first servomotor 3

The slide 6 of feed nut 5

The cylinder 8 of bracket 7

The rotating shaft 10 of push pedal 9

The tapered end 12 of first gear 11

The servomotor 14 of magnet 13 second

The fixed mount 16 of second gear 15

Cylinder 17 flows out mechanism 18

The retaining mechanism 20 of filter core mechanism 19

The pipe joint 1701 of rack 21 first

The branch pipe 1802 of baffle-box 1801

The pipe joint 1804 of sealing ring 1,803 second

The spacing gland 1902 of top cover 1901

The filter core 1904 of guide rod 1903

The lock slots 1906 of sealing gasket 1905

The anti-indent 1908 of shape groove 1907

The spring 2002 of adjusting screw 2001

Pressure head 2003

Embodiment

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, a kind of filter of automatically replaceable filter core, including base 1, Support 2, the first servomotor 3, leading screw 4, feed nut 5, slide 6, bracket 7, cylinder 8, push pedal 9, rotating shaft 10, first gear 11st, tapered end 12, be arranged symmetrically along the tapered end 12 magnet 13, the second servomotor 14, second gear 15 that quantity is 2, be solid Determine frame 16, cylinder 17, liquid separation mechanism 18, filter core mechanism 19, be evenly arranged along the cylinder 17 the locking machine that quantity is no less than 2 Structure 20, rack 21, described support 2 are located at the upper end of base 1, and described support 2 is connected with the screw thread of base 1, and described first Servomotor 3 is located at the upper end of support 2, and the first described servomotor 3 is connected with the screw thread of support 2, and described leading screw 4 is located at first The side of servomotor 3 and it is located at the upper end of support 2, described leading screw 4 is connected with the screw thread of the first servomotor 3 and rotated with support 2 It is connected, described leading screw 4 through feeds nut 5, and described leading screw 4 is connected with the screw thread of feed nut 5, and described slide 6 is located at On the outside of feed nut 5 and it is located at the upper end of support 2, described slide 6 is connected with the screw thread of feed nut 5 and slided with support 2 and is connected, Described bracket 7 is located at the lower end of slide 6, and described bracket 7 is connected with the screw thread of slide 6, and described cylinder 8 is located at the side of bracket 7, Described cylinder 8 is connected with the screw thread of bracket 7, and described push pedal 9 is located at the lower end of cylinder 8, described push pedal 9 and the screw thread phase of cylinder 8 Even, described rotating shaft 10 is located at the lower end of push pedal 9, and described rotating shaft 10 is rotatedly connected with push pedal 9, and described first gear 11 is located at The outside of rotating shaft 10, described first gear 11 are connected with the key of rotating shaft 10, and described tapered end 12 is located at the lower end of rotating shaft 11, described lock First 12 are connected with the screw thread of rotating shaft 11, and described magnet 13 is located at the outside of tapered end 12, and described magnet 13 is connected with the screw thread of tapered end 12, The second described servomotor 14 is located at the upper end of push pedal 9, and the second described servomotor 14 is connected with the screw thread of push pedal 9, described Second gear 15 is located at the lower end of the second servomotor 14 and watched positioned at the outside of first gear 11, described second gear 15 with second Take the close-fitting of motor 14 to be connected and engage with first gear 11 connected, described fixed mount 16 is located at the lower end of support 2, described fixation Frame 16 is connected with the screw thread of support 2, and described cylinder 17 is located at the side of fixed mount 16, described cylinder 17 and the screw thread phase of fixed mount 16 Even, described liquid separation mechanism 18 is located at the lower end of cylinder 17, and described liquid separation mechanism 18 is weldingly connected with cylinder 17, described filter core Mechanism 19 is located at the upper end of cylinder 17, and described filter core mechanism 19 is connected with cylinder 17, and described cylinder 17 is additionally provided with retaining mechanism 20, described retaining mechanism 20 is connected with the screw thread of cylinder 7, and described rack 21 is located at the upper end of base 1, described rack 21 It is connected with the screw thread of base 1, described cylinder 17 is additionally provided with the first pipe joint 1701, and the first described pipe joint 1701 is located at cylinder 17 outer upper ends, the first described pipe joint 1701 are weldingly connected with cylinder 17, and described outflow mechanism 18 also includes baffle-box 1801st, branch pipe 1802, sealing ring 1803, the second pipe joint 1804, described baffle-box 1801 is located at the lower end of cylinder 17, described Baffle-box 1801 is weldingly connected with cylinder 17, and described branch pipe 1802 is located at the upper end of baffle-box 1801, described branch pipe 1802 with The screw thread of baffle-box 1801 is connected, and described branch pipe 1802 is additionally provided with sealing ring 1803, described sealing ring 1803 and branch pipe 1802 Close-fitting is connected, and the second described pipe joint 1804 is located at the lower end of baffle-box 1801, the second described pipe joint 1804 and baffle-box 1801 are weldingly connected, and medium enters branch pipe 1802 after the filtering of filter core mechanism 19, then enters back into baffle-box 1801, most afterwards through the Two pipe joints 1804 flow out, and sealing ring 1803 is used to seal filter core mechanism 19 and the contact surface of branch pipe 1802, described filter core machine Structure 19 also includes top cover 1901, spacing gland 1902, the guide rod that quantity is no less than 2 is evenly arranged along the top cover 1901 1903rd, filter core 1904, sealing gasket 1905, described spacing gland 1902 are located at the upper end of top cover 1901, described spacing gland 1902 are connected with the screw thread of top cover 1901, and described guide rod 1903 is located at the lower end of top cover 1901 and is located at the upper end of cylinder 17, described Guide rod 1903 is connected with the close-fitting of top cover 1901 and is connected with the gap of cylinder 17, described filter core 1904 be located at the lower end of top cover 1901 and Positioned at the upper end of branch pipe 1802, described filter core 1904 is connected with the screw thread of top cover 1901 and is connected with the gap of branch pipe 1802, described Sealing gasket 1905 is located at the lower end of top cover 1901, and described sealing gasket 1905 is connected with the close-fitting of top cover 1901, described top cover 1901 Lock slots 1906 are additionally provided with, described lock slots 1906 are located at the top center of top cover 1901, and described lock slots 1906 do not pass through Top cover 1901 is worn, described spacing gland 1902 is additionally provided with anti-shape groove 1907, and described anti-shape groove 1907 is located at spacing gland At 1902 centers, described anti-shape groove 1907 runs through spacing gland 1902, and during dismounting, tapered end 12 stretches into locking through anti-shape groove 1907 In groove 1906, the second servomotor 14 rotates set angle, so as to drive first gear 8 to rotate set angle by second gear 12 Degree, so as to drive tapered end 12 to rotate set angle so that magnet 13 and the adhesive of top cover 1901, cylinder 8 acts, in anti-shape groove 1907 Barrier effect under, guide rod 1903 departs from retaining mechanism 20, and so that filter core mechanism 19 be extracted, described guide rod 1903 is also set There is indent 1908, described indent 1908 is located at the outside of guide rod 1903, and described indent 1908 is described not through guide rod 1903 Retaining mechanism 20 also includes adjusting screw 2001, spring 2002, pressure head 2003, and described adjusting screw 2001 stretches into cylinder 17, Described adjusting screw 2001 is connected with the screw thread of cylinder 17, and described spring 2002 is located at the right side of adjusting screw 2001, described Spring 2002 is movably connected with adjusting screw 2001, and described pressure head 2003 is located at the right side of spring 2002, described pressure head 2003 It is weldingly connected with spring 2002, pressure head 2003 cooperates with the indent 1908 being arranged on guide rod 1903, so as to guide rod 1903 are fixed, and then filter core mechanism 19 is fixed, and the i.e. adjustable pressure head 2003 of regulation spring 2002 is to guide rod 1903 Thrust, the filter of the automatically replaceable filter core, during work, decoction is carried out in cylinder 17 through the first pipe joint 1701, Flowed out after the filtering of filter core mechanism 19 through flowing out mechanism 18, you can complete filtering；During replacing, it is pre-placed on mounting table 21 more Individual clean filter core mechanism 19, cylinder 8 act, and promote push pedal 9 to move down in place, and now, tapered end 12 passes through and is arranged on spacing gland 1902 anti-shape groove 1907, the work of the second servomotor 14 rotate set angle, so as to drive the first tooth by second gear 15 Wheel 11 rotates set angle, so as to drive tapered end 12 to rotate set angle so that magnet 13 and the adhesive of top cover 1901, cylinder 8 are dynamic Make, under the barrier effect of anti-shape groove 1907, guide rod 1903 departs from retaining mechanism 20, so as to which filter core mechanism 19 be extracted, with Afterwards, the first servomotor 3 drives leading screw 4 to rotate setting position, is set so as to drive the slide 6 being connected with feed nut 5 to move Distance, and then drive bracket 7 to move setpoint distance, cylinder 8 acts, and promotes filter core mechanism 19 to move down insertion rack 21, then, Second servomotor 14 rotates backward set angle, and cylinder 8, which resets, drives tapered end 12 to be separated with spacing gland 1902, then, the One servomotor 3 rotates set angle, and so as to drive tapered end 12 to move to the surface of clean filter core mechanism 19, cylinder 8 is dynamic Make, tapered end 12 passes through the anti-shape groove 1907 for being arranged on spacing gland 1902, and the work of the second servomotor 14 rotates set angle, made Magnet 13 and the adhesive of top cover 1901 are obtained, cylinder 8 resets, and the first servomotor 3 rotates set angle so that filter core mechanism 19 moves To cylinder 17, then, the action of cylinder 8 promotes filter core mechanism 19 to move down in insertion cylinder 17, the pressure in retaining mechanism 20 First 2003 cooperate with the indent 1908 on guide rod 1903, so as to which guide rod 1903 be fixed, and then to filter core mechanism 19 It is fixed, so as to complete the replacing of filter core mechanism 19.The apparatus structure is simple, can change filter core mechanism 19 automatically, greatly drop Low labor intensity of operating staff, production efficiency is improved, meanwhile, the filter core mechanism 19 that operating personnel only need to change takes away And place the filter core mechanism 19 of cleaning, it is not necessary in working site stay longer, be not easy to make operating personnel's body Into infringement.

The present invention is not limited to above-mentioned specific embodiment, one of ordinary skill in the art from above-mentioned design, Without performing creative labour, a variety of conversion made, it is within the scope of the present invention.

Claims

A kind of 1. filter of automatically replaceable filter core, it is characterised in that including base, support, the first servomotor, leading screw, Feed nut, slide, bracket, cylinder, push pedal, rotating shaft, first gear, tapered end, to be arranged symmetrically along the tapered end quantity be 2 Magnet, the second servomotor, second gear, fixed mount, cylinder, liquid separation mechanism, filter core mechanism, along the cylinder it is evenly arranged number Retaining mechanism of the amount no less than 2, rack, described support are located at base upper end, and described support is connected with whorl of base, The first described servomotor is located at pedestal upper end, and the first described servomotor is connected with support screw thread, described leading screw position In the first servomotor side and it is located at pedestal upper end, described leading screw is connected with the first servomotor screw thread and and holder pivots It is connected, described leading screw through feeds nut, and described leading screw is connected with feed nut screw thread, and described slide is positioned at feeding spiral shell On the outside of female and it is located at pedestal upper end, described slide is connected with feed nut screw thread and is connected with bracket slide, described bracket Positioned at slide lower end, described bracket is connected with slide screw thread, and described cylinder is located at bracket side, described cylinder and bracket Screw thread is connected, and described push pedal is located at cylinder lower end, and described push pedal is connected with cylinder screw thread, and described rotating shaft is located under push pedal End, described rotating shaft are rotatedly connected with push pedal, and described first gear is located on the outside of rotating shaft, described first gear and rotating shaft key It is connected, described tapered end is located at rotating shaft lower end, and described tapered end is connected with shaft thread, and described magnet is located on the outside of tapered end, Described magnet is connected with tapered end screw thread, and the second described servomotor is located at push pedal upper end, the second described servomotor with Push pedal screw thread is connected, and described second gear is located at the second servomotor lower end and on the outside of first gear, and described second Gear is connected with the second servomotor close-fitting and engaged with first gear and is connected, and described fixed mount is located at pedestal lower end, described Fixed mount be connected with support screw thread, described cylinder is located at fixed mount side, and described cylinder is connected with fixed mount screw thread, institute The liquid separation mechanism stated is located at cylinder lower end, and described liquid separation mechanism is connected with barrel soldering, and described filter core mechanism is located at cylinder Upper end, described filter core mechanism are connected with cylinder, and described cylinder is additionally provided with retaining mechanism, described retaining mechanism and cylinder spiral shell Line is connected, and described rack is located at base upper end, and described rack is connected with whorl of base.
2. the filter of automatically replaceable filter core as claimed in claim 1, it is characterised in that described cylinder is additionally provided with the One pipe joint, the first described pipe joint are located at cylinder outer upper end, and the first described pipe joint is connected with barrel soldering.
3. the filter of automatically replaceable filter core as claimed in claim 1, it is characterised in that described outflow mechanism is also wrapped Baffle-box, branch pipe, sealing ring, the second pipe joint are included, described baffle-box is located at cylinder lower end, and described baffle-box welds with cylinder Connect connected, described branch pipe and be located at baffle-box upper end, described branch pipe is connected with baffle-box screw thread, and described branch pipe is additionally provided with close Seal, described sealing ring are connected with branch pipe close-fitting, and the second described pipe joint is located at baffle-box lower end, and the second described pipe connects Head is weldingly connected with baffle-box.
4. the filter of the automatically replaceable filter core as described in claim 1 or 3, it is characterised in that described filter core mechanism is also Guide rod of the quantity no less than 2, filter core, sealing gasket, described limit are evenly arranged including top cover, spacing gland, along the top cover Position gland is located at top cover upper end, and described spacing gland is connected with top cover screw thread, and described guide rod is located at top cover lower end and is located at Cylinder upper end, described guide rod are connected with top cover close-fitting and are connected with cylinder gap, and described filter core is located at top cover lower end and position In branch pipe upper end, described filter core is connected with top cover screw thread and is connected with branch ligament, and described sealing gasket is located at top cover lower end, Described sealing gasket is connected with top cover close-fitting.
5. the filter of automatically replaceable filter core as claimed in claim 4, it is characterised in that described top cover is additionally provided with lock Determine groove, described lock slots are located at top cover top center, and described lock slots are not through top cover.
6. the filter of automatically replaceable filter core as claimed in claim 4, it is characterised in that described spacing gland is also set There is anti-shape groove, described anti-shape groove is located at spacing gland center, and described anti-shape groove runs through spacing gland.
7. the filter of automatically replaceable filter core as claimed in claim 4, it is characterised in that described guide rod is additionally provided with pressure Groove, described indent are located on the outside of guide rod, and described indent is not through guide rod.
8. the filter of automatically replaceable filter core as claimed in claim 1, it is characterised in that described retaining mechanism also wraps Adjusting screw, spring, pressure head are included, described adjusting screw stretches into cylinder, and described adjusting screw is connected with cylinder screw, described Spring be located on the right side of adjusting screw, described spring is movably connected with adjusting screw, and described pressure head is located at spring right side, institute The pressure head stated is weldingly connected with spring.