CN111482271A - Pneumatic iron remover - Google Patents

Abstract

The invention discloses a pneumatic iron remover. The technical key points are as follows: the side of the iron removal pipeline is provided with an iron removal device, the iron removal device comprises a sealing plate, a placing rod and a magnet, the side of the iron removal pipeline is provided with an iron removal hole, the sealing plate corresponds to the iron removal hole and can seal the iron removal hole, the iron removal pipeline is provided with a movable device, an auxiliary pipeline is arranged on the upper side of the iron removal pipeline and is communicated with the iron removal pipeline, the auxiliary pipeline is provided with an auxiliary iron removal device, the auxiliary iron removal device comprises an auxiliary plate, an auxiliary rod and an auxiliary magnet, the upper side of the auxiliary pipeline is provided with an auxiliary hole, the auxiliary plate corresponds to the auxiliary hole and can seal the iron removal hole, the auxiliary pipeline is provided with an auxiliary movable device, the lower side of the iron removal pipeline is provided with a water inlet, and the upper side.

Description

Pneumatic iron remover

Technical Field

The invention relates to the field of liquid iron removal, in particular to a pneumatic iron remover.

Background

The sewage and the liquid medicine contain part of fine particles such as iron powder, iron slag and the like, and the iron impurities are not removed before processing, so that the speed of subsequent sewage treatment and the drug effect of the liquid medicine are influenced. The iron impurities in the liquid can only be removed through precipitation, the precipitation removal speed is low, the efficiency is low, the precipitated liquid is conveyed to the next step of treatment, the precipitated impurities in the conveying process can float upwards along with the flowing of water, so that the liquid conveyed to the next step of treatment also contains part of iron impurities, and the impurities cannot be completely removed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the pneumatic iron remover which has high iron removal efficiency and comprehensive iron removal.

In order to achieve the purpose, the invention provides the following technical scheme: a pneumatic iron remover comprises an iron removing pipeline, wherein an iron removing device is arranged on the side edge of the iron removing pipeline, the iron removing device comprises a sealing plate, a placing rod and a magnet, iron removing holes are formed in the side edge of the iron removing pipeline, the sealing plate corresponds to the iron removing holes and can seal the iron removing holes, a movable device is arranged on the iron removing pipeline and is connected with the sealing plate to control the sealing plate to be close to or far away from the iron removing holes, the placing rod is uniformly distributed on one side, facing the iron removing holes, of the sealing plate, the magnet is arranged on the placing rod, an auxiliary pipeline is arranged on the upper side of the iron removing pipeline and is communicated with the iron removing pipeline, an auxiliary iron removing device is arranged on the auxiliary pipeline and comprises an auxiliary plate, an auxiliary rod and an auxiliary magnet, an auxiliary hole is formed in the upper side of the auxiliary pipeline, the auxiliary plate corresponds to the auxiliary hole and can seal the iron removing holes, the auxiliary pipe is provided with an auxiliary moving device, the auxiliary moving device is connected with the auxiliary plate and used for controlling the auxiliary plate to be close to or far away from the iron removing hole, the auxiliary rods are uniformly distributed on one side of the auxiliary plate facing the auxiliary hole, the auxiliary magnets are arranged on the auxiliary rods, a water inlet is formed in the lower side of the iron removing pipe, and a water outlet is formed in the upper side of the auxiliary pipe.

As a further improvement of the invention, the deironing pipeline is vertical to the auxiliary pipeline, and the placing rod is vertical to the auxiliary rod.

As a further improvement of the present invention, an iron removing fixing assembly is disposed on an edge of the iron removing hole, the iron removing fixing assembly includes a first fixing block, a first fixing rod and a first movable block, a first movable groove is disposed on the first fixing block, the first fixing rod is rotatably disposed on the first movable groove, a first movable hole is disposed on the first movable block, the first movable hole is in threaded connection with the first fixing rod, a first fixing groove is disposed on the sealing plate, the position of the first fixing groove corresponds to the position of the first fixing rod, and the first fixing rod can be embedded into the first fixing groove.

As a further improvement of the present invention, an auxiliary fixing assembly is disposed at an edge of the auxiliary hole, the auxiliary fixing assembly includes a second fixed block, a second fixed rod and a second movable block, the second fixed block is provided with a second movable groove, the second fixed rod is rotatably disposed on the second movable groove, the second movable block is provided with a second movable hole, the second movable hole is in threaded connection with the second fixed rod, the auxiliary plate is provided with a second fixed groove, the position of the second fixed groove corresponds to the position of the second fixed rod, and the second fixed rod can be embedded into the second fixed groove.

As a further improvement of the invention, the movable device comprises a positioning plate, a first air cylinder and a plurality of positioning rods, wherein the positioning plate is parallel to the opening surface of the iron removing hole, one end of each positioning rod is vertically connected with the edge of the positioning plate, the other end of each positioning rod is connected with an iron removing pipeline on the periphery of the iron removing hole, sliding holes are formed in the sealing plate, the positions of the sliding holes correspond to the positioning rods one by one, the sealing plate can slide on the sliding rods, the first air cylinder is arranged on one side, back to the sealing plate, of the positioning plate, a first connecting rod is arranged on the first air cylinder, and the first connecting rod is connected with the sealing plate.

As a further improvement of the invention, the positioning plate is provided with a locking hole, the locking hole is provided with a locking rod, the locking rod is provided with a locking block, and the locking rod can slide in the locking hole.

As a further improvement of the invention, the positioning plate is provided with a notch.

As a further improvement of the invention, the auxiliary moving device comprises an auxiliary fixing frame, a second cylinder is arranged on the auxiliary fixing frame, a second connecting rod is arranged on the second cylinder, and the second connecting rod is connected with the auxiliary plate.

As a further improvement of the invention, the auxiliary plate is provided with a detection hole, and the detection hole is provided with a valve for detection.

As a further improvement of the invention, a sealing rubber ring is arranged on one side of the iron removing hole facing the closing plate, and a sealing ring is arranged on one side of the auxiliary hole facing the auxiliary plate.

The iron impurity removing device has the advantages that when iron impurities in liquid are removed, the liquid is input into the iron removing pipeline from the inlet at the lower side of the iron removing pipeline, then the liquid flows upwards from the lower side of the iron removing pipeline, the placing rod is perpendicular to the flow direction of the liquid, the liquid is guided by the placing rod during flowing, the uniformly distributed placing rod is fully contacted with the liquid flowing upwards, the magnet adsorbs the iron impurities in the liquid, then the liquid continues to flow upwards and flows into the auxiliary pipeline, the auxiliary rod is in the same flow direction with the liquid, the uniformly distributed auxiliary rod is fully contacted with the flowing liquid, the auxiliary magnet adsorbs the iron impurities in the liquid, then the liquid flows out from the water outlet of the auxiliary pipe, the liquid is subjected to iron removing operation twice through the iron removing pipeline and the auxiliary pipeline, the iron impurities are removed more comprehensively, and the iron removing efficiency. Liquid is followed the downside input, and the upside output, and iron impurity sinks under the effect of gravity, and then is adsorbed or piles up at deironing pipeline downside by supplementary magnet and magnet, further avoids iron impurity to flow from the delivery port, and the deironing effect is good.

Drawings

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

FIG. 2 is a schematic view of the construction of the closing plate;

FIG. 3 is a schematic view of a positioning plate;

FIG. 4 is a schematic structural diagram of an auxiliary iron removal device;

FIG. 5 is a schematic structural view of an iron removal fixing assembly;

Fig. 6 is a schematic structural view of the auxiliary fixing assembly.

Description of the labeling: 1. an iron removal pipeline; 11. removing iron holes; 2. a deironing device; 21. a closing plate; 211. a first fixing groove; 212. a slide hole; 22. a mounting rod; 23. a magnet; 3. a mobile device; 31. positioning a plate; 311. a locking hole; 312. a locking lever; 313. a locking block; 314. a notch; 32. a first cylinder; 33. positioning a rod; 34. a first connecting rod; 4. an auxiliary pipe; 41. an auxiliary hole; 5. an auxiliary iron removal device; 51. an auxiliary plate; 511. a second fixing groove; 512. a detection hole; 513. a valve; 52. an auxiliary lever; 53. an auxiliary magnet; 6. an auxiliary moving device; 61. an auxiliary fixing frame; 62. a second cylinder; 63. a second connecting rod; 71. a water inlet; 72. a water outlet; 8. a deironing fixing component; 81. a first fixed block; 811. a first movable slot; 82. a first fixing lever; 83. a first movable block; 831. a first movable hole; 9. an auxiliary fixing component; 91. a second fixed block 911 and a second movable groove; 92. a second fixing bar; 93. a second movable block; 931. a second movable hole.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

Referring to fig. 1 to 6, the pneumatic iron remover of the embodiment includes an iron removing pipeline 1, an iron removing device 2 is disposed on a side of the iron removing pipeline 1, the iron removing device 2 includes a closing plate 21, a placing rod 22 and a magnet 23, an iron removing hole 11 is disposed on a side of the iron removing pipeline 1, the closing plate 21 corresponds to the iron removing hole 11 and can seal the iron removing hole 11, a moving device 3 is disposed on the iron removing pipeline 1, the moving device 3 is connected to the closing plate 21 to control the closing plate 21 to be close to or away from the iron removing hole 11, the placing rod 22 is uniformly distributed on one side of the closing plate 21 facing the iron removing hole 11, the magnet 23 is disposed on the placing rod 22, an auxiliary pipeline 4 is disposed on an upper side of the iron removing pipeline 1, the auxiliary pipeline 4 is communicated with the iron removing pipeline 1, an auxiliary iron removing device 5 is disposed on the auxiliary pipeline 4, and the auxiliary iron removing device 5 includes an auxiliary plate 51, the auxiliary pipe 4 is provided with an auxiliary hole 41, the auxiliary plate 51 corresponds to the auxiliary hole 41 and can seal the deironing hole 11, the auxiliary pipe 4 is provided with an auxiliary moving device 6, the auxiliary moving device 6 is connected with the auxiliary plate 51 to control the auxiliary plate 51 to be close to or far away from the deironing hole 11, the auxiliary rods 52 are uniformly distributed on one side of the auxiliary plate 51 facing the auxiliary hole 41, the auxiliary magnet 53 is arranged on the auxiliary rod 52, a water inlet 71 is arranged on the lower side of the deironing pipe 1, and a water outlet 72 is arranged on the upper side of the auxiliary pipe.

Through the technical scheme, when removing iron impurities in liquid, liquid is input into the iron removal pipeline 1 from the inlet port on the lower side of the iron removal pipeline 1, then the liquid flows upwards from the lower side of the iron removal pipeline 1, the placing rod 22 is perpendicular to the flow direction of the liquid, the liquid is guided by the placing rod 22 during flowing, the placing rod 22 in uniform distribution is in full contact with the liquid flowing upwards, the magnet 23 adsorbs the iron impurities in the liquid, then the liquid continues to flow upwards and flows into the auxiliary pipeline 4, the auxiliary rod 52 is the same as the flow direction of the liquid, the auxiliary rod 52 in uniform distribution is in full contact with the flowing liquid, the auxiliary magnet 53 adsorbs the iron impurities in the liquid, then the liquid flows out from the water outlet 72 of the auxiliary pipe, the liquid is subjected to iron removal operation twice through the iron removal pipeline 1 and the auxiliary pipeline 4, the iron impurities are removed more comprehensively, and the iron removal. Liquid is followed the downside and is inputed, upside output, and iron impurity sinks under the effect of gravity, and then is adsorbed or piles up at deironing pipeline 1 downside by auxiliary magnet 53 and magnet 23, further avoids iron impurity to flow out from delivery port 72, and the deironing effect is better. After the iron remover operates for a certain time, the movable device 3 drives the closing plate 21 to be far away from the iron removing hole 11, further drives the placing rod 22 to extend out of the iron removing hole 11, then iron impurities on the magnet 23 are cleaned, after the cleaning is finished, the movable device 3 drives the closing plate 21 to be close to the iron removing hole 11, the placing rod 22 penetrates into the iron removing pipeline 1 from the iron removing hole 11 until the closing plate 21 is abutted against the iron removing hole 11, and at the moment, the closing plate 21 is sealed with the iron removing hole 11; the auxiliary moving device 6 drives the auxiliary plate 51 to be far away from the iron removing hole 11, and further drives the auxiliary rod 52 to extend out of the auxiliary hole 41, then iron impurities on the auxiliary magnet 53 are cleaned, after cleaning is completed, the auxiliary moving device 6 drives the auxiliary plate 51 to be close to the auxiliary hole 41, the auxiliary rod 52 penetrates into the auxiliary pipeline 4 from the auxiliary hole 41 until the auxiliary plate 51 is inconsistent with the auxiliary hole 41, and at the moment, the auxiliary plate 51 is sealed with the auxiliary hole 41, and cleaning is easy. The problems that the prior liquid iron removal equipment cannot remove iron impurities comprehensively, has low iron removal efficiency and is difficult to clean are solved.

As a modified specific embodiment, the deironing pipeline 1 is vertical to the auxiliary pipeline 4, and the placing rod 22 is vertical to the auxiliary rod 52.

Through the technical scheme, the iron removing pipeline 1 is vertical to the auxiliary pipeline 4, the placing rod 22 is vertical to the auxiliary rod 52, and when liquid flows upwards, the liquid is repeatedly contacted with the magnet 23 and the auxiliary magnet 53, so that the iron removing effect is further improved.

As an improved specific embodiment, the edge of the iron removing hole 11 is provided with an iron removing fixing component 8, the iron removing fixing component 8 includes a first fixing block 81, a first fixing rod 82 and a first movable block 83, the first fixing block 81 is provided with a first movable groove 811, the first fixing rod 82 is rotatably disposed on the first movable groove 811, the first movable block 83 is provided with a first movable hole 831, the first movable hole 831 is in threaded connection with the first fixing rod 82, the closing plate 21 is provided with a first fixing groove 211, the position of the first fixing groove 211 corresponds to the position of the first fixing rod 82, and the first fixing rod 82 can be embedded into the first fixing groove 211.

Through the technical scheme, when the closing plate 21 is closed with the iron removing hole 11, the first fixing rod 82 is rotated, the first fixing block 81 is located on one side, back to the iron removing hole 11, of the closing plate 21, then the first movable block 83 is rotated, the first movable block 83 is made to be abutted to the closing plate 21, the iron removing fixing component 8 fixes the closing plate 21 on the iron removing hole 11 at the moment, and the sealing performance is high when the closing plate 21 closes the iron removing hole 11. And simple structure, when needing to wash and putting pole 22, rotatory first movable block 83 makes first movable block 83 keep away from closing plate 21, afterwards rotates first dead lever 82 again, and fixed subassembly 8 of deironing is not at fixed closing plate 21. The iron removal fixing component 8 is simple in structure, good in sealing effect and convenient to break away from a fixed state.

As a modified specific embodiment, the edge of the auxiliary hole 41 is provided with an auxiliary fixing component 9, the auxiliary fixing component 9 includes a second fixed block 91, a second fixed rod 92 and a second movable block 93, the second fixed block 91 is provided with a second movable groove 911, the second fixed rod 92 is rotatably disposed on the second movable groove 911, the second movable block 93 is provided with a second movable hole 931, the second movable hole 931 is in threaded connection with the second fixed rod 92, the auxiliary plate 51 is provided with a second fixed groove 511, the position of the second fixed groove 511 corresponds to the position of the second fixed rod 92, and the second fixed rod 92 can be embedded into the second fixed groove 511.

Through the technical scheme, when the auxiliary plate 51 is closed with the auxiliary hole 41, the second fixed rod 92 is rotated to enable the second fixed block 91 to be positioned on the side, opposite to the iron removing hole 11, of the auxiliary plate 51, then the second movable block 93 is rotated to enable the second movable block 93 to be abutted against the auxiliary plate 51, at the moment, the auxiliary fixing assembly 9 fixes the auxiliary plate 51 on the auxiliary hole 41, and the sealing performance is high when the auxiliary plate 51 closes the auxiliary hole 41. And the structure is simple, when the auxiliary rod 52 needs to be cleaned, the second movable block 93 is rotated to make the second movable block 93 be far away from the auxiliary plate 51, and then the second fixed rod 92 is rotated, so that the auxiliary fixing component 9 is not used for fixing the auxiliary plate 51. The auxiliary fixing component 9 has simple structure, good sealing effect and convenient separation from a fixed state.

As an improved specific embodiment, the moving device 3 includes a positioning plate 31, a first cylinder 32 and a plurality of positioning rods 33, the positioning plate 31 is parallel to an opening surface of the iron removing hole 11, one end of each of the positioning rods 33 is perpendicularly connected to an edge of the positioning plate 31, the other end of each of the positioning rods 33 is connected to the iron removing pipe 1 around the iron removing hole 11, sliding holes 212 are formed in the closing plate 21, the positions of the sliding holes 212 correspond to the positioning rods 33 one by one, the closing plate 21 can slide on a sliding rod, the first cylinder 32 is disposed on a side of the positioning plate 31 facing away from the closing plate 21, a first connecting rod 34 is disposed on the first cylinder 32, and the first connecting rod 34 is connected to the closing plate 21.

Through the technical scheme, the first cylinder 32 is inflated and deflated to drive the first connecting rod 34 to move so as to drive the closing plate 21 to be close to or far away from the iron removing hole 11, the first connecting rod 34 is vertically connected with the closing plate 21, the first cylinder 32 is vertically connected with the first connecting rod 34, the first cylinder 32 is inflated/deflated to drive the closing plate 21 to move only under the force in the vertical direction, meanwhile, the height position of the closing plate 21 is fixed by the sliding rod, the gravity borne by the closing plate 21 acts on the sliding rod through the sliding hole 212, the sliding rod is parallel to the first connecting rod 34, the sliding rod and the sliding hole 212 enable the gravity of the closing plate 21 not to act on the first connecting rod 34, the stability is high, and the service life of the first cylinder 32 is ensured.

As a modified specific embodiment, a locking hole 311 is formed on the positioning plate 31, a locking rod 312 is arranged on the locking hole 311, a locking block 313 is arranged on the locking rod 312, and the locking rod 312 can slide in the locking hole 311.

Through the technical scheme, after the first cylinder 32 is charged/deflated to drive the closing plate 21 to be far away from the iron removing hole 11, the locking rod 312 is pushed and rotated, the locking block 313 is located between the closing plate 21 and the iron removing hole 11, the locking block 313 is abutted to one side of the closing plate 21 facing the iron removing hole 11, the locking rod 312 is rotated after the iron impurities are cleaned, the locking block 313 and the closing plate 21 are staggered, the closing plate 21 is locked by cleaning, and the stability in the process of cleaning the iron impurities is improved.

As a modified embodiment, the positioning plate 31 is provided with a notch 314.

Through above-mentioned technical scheme, set up breach 314 on locating plate 31, under the condition of guaranteeing locating plate 31 structural strength, reduce locating plate 31's quantity, reduce the quality, easily transport to reduce the material and use reduce cost.

As a modified specific embodiment, the auxiliary moving device 6 includes an auxiliary fixing frame 61, a second cylinder 62 is disposed on the auxiliary fixing frame 61, a second connecting rod 63 is disposed on the second cylinder 62, and the second connecting rod 63 is connected to the auxiliary plate 51.

Through the technical scheme, the second air cylinder 62 is inflated and deflated to drive the second connecting rod 63 to ascend and descend, so as to drive the auxiliary plate 51 to ascend and descend, the second connecting rod 63 is vertically connected with the auxiliary plate 51 (preferably, the connecting point is the gravity center of the auxiliary plate 51), the second air cylinder 62 is vertically connected with the second connecting rod 63, and in the process of lifting the auxiliary plate 51 by the inflation/deflation of the second air cylinder 62, the auxiliary plate is only stressed by the force in the vertical direction, so that the stability is high, and the service life of the second air cylinder 62 is ensured.

As a modified specific embodiment, the auxiliary plate 51 is provided with a detection hole 512, and the detection hole 512 is provided with a valve 513 for detection.

Through above-mentioned technical scheme, the deironing in-process can be detected through opening valve 513 collection liquid regularly, judges whether the liquid after the deironing is up to standard, can detect and observe the liquid that flows at any time.

In a modified embodiment, the side of the iron removing hole 11 facing the closing plate 21 is provided with a sealing rubber ring, and the side of the auxiliary hole 41 facing the auxiliary plate 51 is provided with a sealing rubber ring.

Through the technical scheme, when the sealing plate is sealed, the closing plate 21 is abutted to the sealing rubber ring, the sealing effect is better, the auxiliary plate 51 is abutted to the sealing ring, and the sealing effect is better.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. A pneumatic de-ironing separator is characterized in that: including deironing pipeline (1), deironing pipeline (1) side is equipped with deironing device (2), deironing device (2) is including closing plate (21), ann puts pole (22) and magnet (23), the side of deironing pipeline (1) is equipped with deironing hole (11), closing plate (21) correspond with deironing hole (11) and can seal deironing hole (11), are equipped with head (3) on deironing pipeline (1), head (3) are connected with closing plate (21), control closing plate (21) is close to or keeps away from deironing hole (11), lay pole (22) evenly distributed in closing plate (21) towards one side of deironing hole (11), magnet (23) set up on putting pole (22), deironing pipeline (1) upside is equipped with auxiliary pipeline (4), auxiliary pipeline (4) and deironing pipeline (1) intercommunication, an auxiliary iron removing device (5) is arranged on the auxiliary pipeline (4), the auxiliary iron removing device (5) comprises an auxiliary plate (51), an auxiliary rod (52) and an auxiliary magnet (53), the upper side of the auxiliary pipeline (4) is provided with an auxiliary hole (41), the auxiliary plate (51) corresponds to the auxiliary hole (41) and can seal the iron removing hole (11), the auxiliary pipeline (4) is provided with an auxiliary moving device (6), the auxiliary moving device (6) is connected with an auxiliary plate (51) to control the auxiliary plate (51) to be close to or far away from the iron removing hole (11), the auxiliary rods (52) are uniformly distributed on one side of the auxiliary plate (51) facing the auxiliary hole (41), the auxiliary magnet (53) is arranged on the auxiliary rod (52), a water inlet (71) is formed in the lower side of the iron removing pipeline (1), and a water outlet (72) is formed in the upper side of the auxiliary pipe.

2. The pneumatic iron remover according to claim 1, wherein: the deironing pipeline (1) is vertical to the auxiliary pipeline (4), and the placing rod (22) is vertical to the auxiliary rod (52).

3. The pneumatic iron remover according to claim 1, wherein: remove the edge of iron eye (11) and be equipped with the fixed subassembly of deironing (8) on being equipped with, the fixed subassembly of deironing (8) is including first fixed block (81), first dead lever (82) and first movable block (83), be equipped with first activity groove (811) on first fixed block (81), the rotatable setting of first dead lever (82) is on first activity groove (811), be equipped with first activity hole (831) on first movable block (83), first activity hole (831) and first dead lever (82) threaded connection, be equipped with first fixed slot (211) on closing plate (21), the position of first fixed slot (211) corresponds with the position of first dead lever (82), first dead lever (82) can imbed in first fixed slot (211).

4. The pneumatic iron remover according to claim 1, wherein: the edge of supplementary hole (41) is equipped with and is equipped with supplementary fixed subassembly, supplementary fixed subassembly is including second fixed block (91), second dead lever (92) and second movable block (93), be equipped with second activity groove (911) on second fixed block (91), the rotatable setting of second dead lever (92) is on second activity groove (911), be equipped with second activity hole (931) on second movable block (93), second activity hole (931) and second dead lever (92) threaded connection, be equipped with second fixed slot (511) on accessory plate (51), the position of second fixed slot (511) corresponds with the position of second dead lever (92), second dead lever (92) can imbed in second fixed slot (511).

5. The pneumatic iron remover according to claim 1, wherein: the movable device (3) is including locating plate (31), first cylinder (32) and a plurality of locating lever (33), locating plate (31) is parallel with the opening face of deironing hole (11), and is a plurality of the one end of locating lever (33) is connected with the edge of locating plate (31) is perpendicular, and the other end is connected with deironing pipeline (1) except that iron hole (11) periphery, be equipped with slide opening (212) on closing plate (21), slide opening (212) position and locating lever (33) one-to-one, closing plate (21) can slide on the slide bar, first cylinder (32) set up the one side of closing plate (21) dorsad at locating plate (31), be equipped with head rod (34) on first cylinder (32), head rod (34) are connected with closing plate (21).

6. The pneumatic iron remover according to claim 5, wherein: the positioning plate (31) is provided with a locking hole (311), the locking hole (311) is provided with a locking rod (312), the locking rod (312) is provided with a locking block (313), and the locking rod (312) can slide in the locking hole (311).

7. The pneumatic iron remover according to claim 5, wherein: and a notch (314) is arranged on the positioning plate (31).

8. The pneumatic iron remover according to claim 1, wherein: the auxiliary moving device (6) comprises an auxiliary fixing frame (61), a second air cylinder (62) is arranged on the auxiliary fixing frame (61), a second connecting rod (63) is arranged on the second air cylinder (62), and the second connecting rod (63) is connected with the auxiliary plate (51).

9. The pneumatic iron remover according to claim 1, wherein: the auxiliary plate (51) is provided with a detection hole (512), and the detection hole (512) is provided with a valve (513) for detection.

10. The pneumatic iron remover according to claim 1, wherein: and a sealing rubber ring is arranged on one side of the iron removing hole (11) facing the closing plate (21), and a sealing ring is arranged on one side of the auxiliary hole (41) facing the auxiliary plate (51).

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