CN111300279A

CN111300279A - Novel rust cleaning device of corrosion iron chain

Info

Publication number: CN111300279A
Application number: CN202010231671.4A
Authority: CN
Inventors: 潘盼盼
Original assignee: Fuzhou Arc Technology Co ltd
Current assignee: Fuzhou Arc Technology Co ltd
Priority date: 2020-03-28
Filing date: 2020-03-28
Publication date: 2020-06-19

Abstract

The invention discloses a novel rust removing device for a rusted iron chain, which comprises a rust removing box, wherein a rust removing cavity for removing rust is arranged in the rust removing box, a communicating cavity communicating an external space with the rust removing cavity is arranged in the upper end wall of the rust removing cavity, supporting grooves communicating the communicating cavity are respectively arranged in the front end wall and the rear end wall of the communicating cavity, a sealing block is arranged in the communicating cavity, supporting blocks with one ends positioned in the supporting grooves are respectively fixed at the front end and the rear end of the sealing block, and a filtering mechanism capable of removing iron rust among sands is arranged in the lower end wall of the rust removing cavity. Ensuring the cleaning efficiency.

Description

Novel rust cleaning device of corrosion iron chain

Technical Field

The invention relates to the field of new processes, in particular to a novel rust removing device for a rusted iron chain.

Background

The iron chain exposed in the air is subjected to oxidation reaction with oxygen in the air along with the lapse of time, and is simultaneously corroded by rainwater, and finally metal oxide is generated on the surface of the iron chain;

at present stage when the corrosion to the iron chain is handled, adopt chemical agent or manual dull polish clearance mostly, very consume labour and inefficiency, handle a large amount of iron chains simultaneously through the sandblast a bit, because the iron chain piles up together, the place of contact is difficult to handled a bit, cause the reduction of handling quality, and remove the iron chain while clearing up, the contact point between the iron chain ring is difficult to clear up, also can cause the decline of handling quality.

Disclosure of Invention

The invention aims to solve the technical problem of providing a novel rust removing device for a rusted iron chain, which solves the problems of low treatment quality and the like, thereby improving the treatment quality.

The invention is realized by the following technical scheme.

The invention relates to a novel rust removing device for a rusted iron chain, which comprises a rust removing box, wherein a rust removing cavity for removing rust is arranged in the rust removing box, a communicating cavity which is communicated with an external space and the rust removing cavity is arranged in the upper end wall of the rust removing cavity, supporting grooves which are communicated with the communicating cavity are respectively arranged in the front end wall and the rear end wall of the communicating cavity, a sealing block is arranged in the communicating cavity, supporting blocks with one ends positioned in the supporting grooves are respectively fixed at the front end and the rear end of the sealing block, a filtering mechanism for removing iron rust between sands is arranged in the lower end wall of the rust removing cavity, sand conveying mechanisms are respectively arranged in the left end wall and the right end wall of the rust removing cavity and the rear end wall of the rust removing cavity, vertical sand blasting mechanisms for vertically blasting sand are respectively arranged in the left end wall and the right end wall of the rust removing cavity, the vertical sand blasting mechanisms, a lifting cavity and a containing groove with a downward opening are arranged in the upper end wall of the driven cavity, a sealing plate with a lower end positioned in the driven cavity is arranged in the containing groove, two stop plates are arranged in the rust removing cavity, a connecting plate with one end penetrating through the through cavity and fixedly connected with the stop plates is fixed on the end wall of the sealing plate close to the rust removing cavity, a first spraying pipeline with the right end penetrating through the through cavity and positioned in the rust removing cavity is arranged in the driven cavity, the right end of the first spraying pipeline is positioned on the upper side of the connecting plate, a lifting plate capable of lifting and two lifting springs supporting the lifting plate are arranged in the lifting cavity, the upper end of the first spraying pipeline penetrates through the upper end wall of the driven cavity, the lower end wall of the lifting cavity and the lifting plate and is communicated with the space on the upper side of the lifting plate, and a driven spring supporting the first spraying pipeline, and a horizontal sand blasting mechanism capable of performing horizontal sand blasting is arranged in the rear end wall of the rust removing cavity.

Furthermore, the filtering mechanism comprises an annular cavity which is arranged in the lower end wall of the rust removing cavity and is communicated with the rust removing cavity through an upper end wall, three conveying pipelines communicated with the annular cavity are arranged in the lower end wall of the rust removing cavity, a sliding cavity penetrated through by the upper end wall of the conveying pipeline is arranged in the lower end wall of the rust removing cavity, two support plates are connected in the sliding cavity in a sliding way, the two support plates are fixedly connected through a filter screen, a first electromagnet which can repel and attract with the support plates is fixed on the end wall of the sliding cavity close to the center of the rust removing box, the support plates and the end wall of the sliding cavity close to the center of the rust removing box are connected through compression springs, a second electromagnet is fixed in the two support plates far away from the compression springs, and a cut-off cavity communicated with the conveying pipelines is arranged in the upper end wall of the sliding cavity, the cutting cavity is internally and slidably connected with a cutting plate capable of cutting off the conveying pipeline, a third electromagnet capable of repelling and attracting the cutting plate is further fixed on the end wall of the cutting cavity, and a discharge pipeline communicated with the sliding cavity and the external space is arranged in the lower end wall of the sliding cavity.

Further, the transmission mechanism comprises three transportation cavities positioned in the derusting box, the upper end wall of each transportation cavity is fixed with a rotating motor, the lower end of the rotating motor is in power connection with a spiral feeding shaft for transporting sand, a moving cavity which is far away from the end wall of the discharge pipeline and is communicated with the external space is arranged in the lower end wall of the transporting cavity, a rack plate is connected in the movable cavity in a sliding way, the rack plate is fixedly connected with the end wall of the movable cavity close to the discharge pipeline through a telescopic spring, a rope is fixed on the rack plate close to the end wall of the discharge pipeline, the lower end of the spiral feeding shaft penetrates through the lower end wall of the transportation cavity and the upper end wall of the moving cavity and is positioned in the moving cavity, a semi-gear meshed with the rack plate is fixed at the lower end of the spiral feeding shaft, a guide plate is fixed on the end wall of the transportation cavity close to the rust removing cavity, and a through cavity is further arranged in the end wall of the transportation cavity close to the rust removing cavity.

Furthermore, the horizontal sand blasting mechanism comprises a translation cavity which is positioned in the rear end wall of the rust removing cavity and is communicated with the rust removing cavity, a closed block which can cut off the communication between the rust removing cavity and the translation cavity is connected in the translation cavity in a sliding manner, a second spraying pipeline is arranged in the lifting cavity, a lifting cavity is also arranged in the rear end wall of the translation cavity, the right through cavity is communicated with the transportation cavity on the right side and the lifting cavity on the right side, the left through cavity is communicated with the transportation cavity on the left side and the lifting cavity on the left side, the through cavity on the rear side is communicated with the transportation cavity on the rear side and the lifting cavity, the front end wall of the lifting cavity is communicated with the translation cavity, the front end of the second spraying pipeline penetrates through the translation cavity and is positioned in the rust removing cavity, a second sand blasting pump for sand blasting is arranged in the second spraying pipeline, and two translation blocks are connected, the two translation blocks are fixedly connected through a lifting plate, the upper end of the second spraying pipeline penetrates through the lifting plate and is communicated with the space on the upper side of the lifting plate, the right end of the translation block on the right side is fixedly provided with a translation spring fixedly connected with the right end wall of the lifting cavity, one end of the rope on the left side and the right side penetrates through the end wall of the moving cavity close to the discharge pipeline, the lower end wall of the driven cavity and is fixedly connected with the first spraying pipeline, and the front end of the rope on the rear side penetrates through the front end wall of the moving cavity, the right end wall of the lifting cavity and is fixedly connected with the supporting plate.

Further, the meshes of the filter screen can allow rust and sand to pass through.

The invention has the beneficial effects that: the device simple structure, the simple operation when the clean iron chain of incasement, moves the iron chain on one side, through the setting of three sandblast mouth, can be more comprehensive to iron chain corrosion surface cleaning, also can carry out the sandblast to the contact surface between the iron chain ring, very big improvement treatment quality, and can be at the in-process of handling, accomplish automatically and mix the iron rust between clean sand, guarantee clean efficiency.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of the structure A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged view of the D-D structure shown in FIG. 2 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The novel rust removing device for the rusted iron chain comprises a rust removing box 10, wherein a rust removing cavity 13 for removing rust is arranged in the rust removing box 10, a communicating cavity 14 communicating an external space with the rust removing cavity 13 is arranged in the upper end wall of the rust removing cavity 13, supporting grooves 42 communicating the communicating cavity 14 are arranged in the front end wall and the rear end wall of the communicating cavity 14, a sealing block 15 is arranged in the communicating cavity 14, supporting blocks 45 with one ends positioned in the supporting grooves 42 are fixed at the front end and the rear end of the sealing block 15, a filtering mechanism 60 capable of removing iron rust between sands is arranged in the lower end wall of the rust removing cavity 13, conveying mechanisms 59 for conveying sands are arranged in the left end wall and the right end wall of the rust removing cavity 13 and the rear end wall of the rust removing cavity 13, vertical sand blasting mechanisms 61 for vertically blasting sand are arranged in the left end wall and the right end wall of the rust removing cavity 13, the vertical sand blasting mechanism 61 comprises driven cavities 30 positioned in the, the driven cavity 30 and the rust removing cavity 13 are communicated with each other through a through cavity 28, a lifting cavity 19 and a containing groove 17 with a downward opening are arranged in the upper end wall of the driven cavity 30, a sealing plate 16 with a lower end located in the driven cavity 30 is arranged in the containing groove 17, two blocking plates 29 are arranged in the rust removing cavity 13, the sealing plate 16 is close to the end wall of the rust removing cavity 13 and is fixedly provided with a connecting plate 26 with one end penetrating through the through cavity 28 and fixedly connected with the blocking plates 29, a first ejection pipeline 24 with a right end penetrating through the through cavity 28 and located in the rust removing cavity 13 is arranged in the driven cavity 30, the right end of the first ejection pipeline 24 is located on the upper side of the connecting plate 26, a lifting plate 18 capable of lifting and two lifting springs 23 supporting the lifting plate 18 are arranged in the lifting cavity 19, and the upper end of the first ejection pipeline 24 penetrates through the upper end wall of the driven cavity 30, The lower end wall of the lifting cavity 19 and the lifting plate 18 are communicated with the space on the upper side of the lifting plate 18, a driven spring 31 for supporting the first spraying pipeline 24 is arranged in the driven cavity 30, and a horizontal sand blasting mechanism 62 capable of carrying out horizontal sand blasting is arranged in the rear end wall of the rust removing cavity 13.

Advantageously, the filtering mechanism 60 includes an annular cavity 12 having an upper end wall located in a lower end wall of the rust removing cavity 13 and communicating with the rust removing cavity 13, three delivery pipes 38 communicating with the annular cavity 12 are located in a lower end wall of the rust removing cavity 13, a sliding cavity 51 penetrated by the upper end wall of the delivery pipes 38 is located in the lower end wall of the rust removing cavity 13, two support plates 54 are slidably connected in the sliding cavity 51, the two support plates 54 are fixedly connected through a filter screen 55, a first electromagnet 52 which can repel and attract the support plates 54 is fixed on each of a central end wall of the sliding cavity 51 close to the rust removing box 10 and an end wall of the sliding cavity 51 far from the center of the rust removing box 10, the support plates 54 and an end wall of the sliding cavity 51 close to the center of the rust removing box 10 are connected through compression springs 53, a second electromagnet 56 is fixed in the two support plates 54 far from the compression springs 53, be equipped with the intercommunication in the 51 upper end walls of sliding chamber the chamber 49 that cuts of transfer line 38, it has the truncation board 48 of transfer line 38 to cut intracavity 49 sliding connection, it can repel mutually the third electro-magnet 50 of inhaling with truncation board 48 still to be fixed with on the 49 end walls of cutting chamber, be equipped with the intercommunication in the 51 lower end walls of sliding chamber 51 and the discharge pipe 36 of external space.

Beneficially, the conveying mechanism 59 comprises three conveying cavities 32 positioned in the derusting box 10, a rotating motor 21 is fixed on the upper end wall of each conveying cavity 32, a spiral feeding shaft 27 for conveying sand is connected to the lower end of each rotating motor 21 in a power mode, a moving cavity 39 communicated with the external space and far away from the end wall of the discharge pipeline 36 is arranged in the lower end wall of each conveying cavity 32, a rack plate 34 is connected in the moving cavity 39 in a sliding mode, the rack plate 34 and the end wall, close to the discharge pipeline 36, of the moving cavity 39 are fixedly connected through a telescopic spring 35, a rope 37 is fixed on the end wall, close to the discharge pipeline 36, of the rack plate 34, the lower end of each spiral feeding shaft 27 penetrates through the lower end wall of each conveying cavity 32 and the upper end wall of the corresponding moving cavity 39 and is positioned in the corresponding moving cavity 39, a half gear 33 meshed with the rack plate 34 is fixed on the lower end, a guide plate 22 is fixed on the end wall of the transportation cavity 32 close to the rust removing cavity 13, and a through cavity 20 is further arranged in the end wall of the transportation cavity 32 close to the rust removing cavity 13.

Beneficially, the horizontal sand blasting mechanism 62 includes a translation cavity 43 located in the rear end wall of the rust removing cavity 13 and communicating with the rust removing cavity 13, a sealing block 44 capable of cutting the communication between the rust removing cavity 13 and the translation cavity 43 is slidably connected in the translation cavity 43, a second blasting pipeline 40 is arranged in the lifting cavity 46, a lifting cavity 46 is further arranged in the rear end wall of the 4 translation cavity 43, the right side through cavity 20 communicates between the right side transportation cavity 32 and the right side lifting cavity 19, the left side through cavity 20 communicates between the left side transportation cavity 32 and the left side lifting cavity 19, the rear side through cavity 20 communicates between the rear side transportation cavity 32 and the lifting cavity 46, the front end wall of the lifting cavity 46 communicates with the translation cavity 43, the front end of the second blasting pipeline 40 communicates between the translation cavity 43 and is located in the rust removing cavity 13, a second sand blasting pump 41 for sand blasting is arranged in the second blasting pipeline 40, the lifting cavity 46 is internally and slidably connected with two translation blocks 57, the two translation blocks 57 are fixedly connected through a lifting plate 47, the upper end of the second ejection pipeline 40 penetrates through the lifting plate 47 and is communicated with the upper side space of the lifting plate 47, the right end of the right translation block 57 is fixedly provided with a translation spring 58, the right end of the translation spring is fixedly connected with the right end wall of the lifting cavity 46, one end of the rope 37 on the left side and the right side penetrates through the end wall of the moving cavity 39 close to the discharge pipeline 36 and the lower end wall of the driven cavity 30 and is fixedly connected with the first ejection pipeline 24, and the front end of the rope 37 on the rear side penetrates through the front end wall of the moving cavity 39 and the right end wall of the lifting cavity 46 and is fixedly connected with the supporting plate 54.

Advantageously, the mesh of the screen 55 allows the passage of rust and sand.

Manually lifting the closed block 15, then placing the rusted iron chain part into the rust removing cavity 13, enabling the part of the iron chain contacting with the lower end wall of the rust removing cavity 13 to be positioned on the lower side of the second spraying pipeline 40, then placing the closed block 15 back into the communicating cavity 14, and enabling the supporting block 45 to be positioned in the supporting groove 42;

when the sand blasting rust removal is carried out, the left end of the iron chain is pulled at a constant speed, the right end of the iron chain enters the rust removal cavity 13 at the same speed, the iron sand enters the sliding cavity 51 through the annular cavity 12 and the conveying pipeline 38 and is positioned on the upper side of the filter screen 55, then the first electromagnet 52 close to the center of the rust removal box 10 works and repels and attracts the support plate 54, so that the support plate 54 moves back and forth, the mixture of the sand and the iron rust on the upper side of the filter screen 55 is shaken, the sand enters the conveying pipeline 38 through the filter screen 55 and the conveying pipeline 38, the iron rust is adsorbed on the second electromagnet 56, when the second electromagnet 56 is adsorbed with the iron rust, the third electromagnet 50 works and repels the cutoff plate 48, so that the cutoff plate 48 cuts the conveying pipeline 38, the sand is prevented from entering the sliding cavity 51, and the first electromagnet 52 attracts the support plate 54, so that the filter screen 55 is positioned at the upper side of the discharge duct 36, and then the second electromagnet 56 stops working and is no longer attracted to the rust, so that the rust enters the discharge duct 36 through the filter screen 55 and is discharged;

after sand enters the transportation cavity 32 through the transmission pipeline 38, the rotation motor 21 works to drive the spiral feeding shaft 27 to rotate, so that the spiral feeding shaft 27 drives the sand to rise, the lower end of the spiral feeding shaft 27 drives the half gear 33 to rotate, the rack plate 34 is driven to be far away from the discharge pipeline 36 and the expansion spring 35 is stretched, the rope 37 is tensioned, the first spraying pipeline 24 is made to descend, and when the half gear 33 is disengaged from the rack plate 34, the first sand spraying pump 25 resets to drive the rack plate 34 to reset, so that the rope 37 is loosened;

sand enters the lifting cavity 19 and the lifting cavity 46 through the guide plate 22 and the through cavity 20, then the first sand-blasting pump 25 and the second sand-blasting pump 41 work, the sand in the first ejecting pipeline 24 is ejected by the work of the first sand-blasting pump 25, the sand in the second ejecting pipeline 40 is ejected by the work of the second sand-blasting pump 41, the rope 37 is tensioned and loosened along with the movement of the rack plate 34, when the rope 37 is tensioned, the first ejecting pipelines 24 on the left side and the right side descend and compress the driven spring 31, so that the closing plate 16 and the blocking plate 29 descend, one end of the first ejecting pipeline 24 close to the rust removing cavity 13 ascends and is ejected on a vertical iron chain, so that the rust removal of most rust surfaces of the iron chain is finished, and when the rope 37 loosens, the driven spring 31 resets and drives the first ejecting pipeline 24;

when the rear translation block 57 moves rightwards along with the tightening of the rope 37, the lifting plate 47 moves rightwards, the second ejection pipe 40 moves rightwards, when the rope 37 becomes loose, the translation block 57 moves leftwards under the action of the translation spring 58, the lifting plate 47 and the second ejection pipe 40 move leftwards, the second ejection pipe 40 in the rust removal cavity 13 moves leftwards and rightwards, the ejected sand is ejected on an iron chain on the lower end wall of the rust removal cavity 13, and the ejected sand easily performs sand blasting and rust removal on a contact surface between iron chain rings because the iron chain is in a loose state, so that the quality of rust removal is improved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a novel rust cleaning device of corrosion iron chain, includes the rust cleaning case, its characterized in that: a derusting chamber for derusting is arranged in the derusting box, a communicating chamber communicated with the outside space and the derusting chamber is arranged in the upper end wall of the derusting chamber, supporting grooves communicated with the communicating chamber are respectively arranged in the front end wall and the rear end wall of the communicating chamber, a sealing block is arranged in the communicating chamber, supporting blocks with one ends positioned in the supporting grooves are respectively fixed at the front end and the rear end of the sealing block, a filtering mechanism for removing iron rust between sands is arranged in the lower end wall of the derusting chamber, transmission mechanisms for carrying sands are respectively arranged in the left end wall and the right end wall of the derusting chamber and the rear end wall of the derusting chamber, vertical sand blasting mechanisms for vertically blasting sand are respectively arranged in the left end wall and the right end wall of the derusting chamber, the vertical sand blasting mechanisms comprise driven chambers positioned in the left end wall and the right end wall of the derusting chamber, the driven chambers are communicated with the, a sealing plate with the lower end positioned in the driven cavity is arranged in the accommodating groove, two stop plates are arranged in the derusting cavity, a connecting plate with one end penetrating through the through cavity and fixedly connected with the blocking plate is fixed on the end wall of the sealing plate close to the derusting cavity, a first spraying pipeline with the right end penetrating through the through cavity and positioned in the rust removing cavity is arranged in the driven cavity, the right end of the first ejection pipeline is positioned at the upper side of the connecting plate, a lifting plate capable of lifting and two lifting springs for supporting the lifting plate are arranged in the lifting cavity, the upper end of the first ejection pipeline penetrates through the upper end wall of the driven cavity, the lower end wall of the lifting cavity and the lifting plate and is communicated with the space above the lifting plate, the driven cavity is internally provided with a driven spring for supporting the first spraying pipeline, and the rear end wall of the derusting cavity is internally provided with a horizontal sand blasting mechanism capable of carrying out horizontal sand blasting.

2. The novel rust removing device for the rusted iron chain as claimed in claim 1, is characterized in that: the filter mechanism comprises an annular cavity, wherein the upper end wall of the annular cavity is arranged in the lower end wall of the derusting cavity and communicated with the derusting cavity, three conveying pipelines communicated with the annular cavity are arranged in the lower end wall of the annular cavity, a sliding cavity penetrated by the upper end wall of the conveying pipeline is arranged in the lower end wall of the derusting cavity, two support plates are connected in the sliding cavity in a sliding manner, the two support plates are fixedly connected through a filter screen, the sliding cavity is close to the central end wall of the derusting box, the end wall of the sliding cavity, far away from the center of the derusting box, is fixedly provided with a first electromagnet capable of repelling and attracting with the support plates, the support plates and the end wall of the sliding cavity, near the center of the derusting box, are connected through compression springs, second electromagnets are fixed in the two support plates far away from the compression springs, and a, the cutting cavity is internally and slidably connected with a cutting plate capable of cutting off the conveying pipeline, a third electromagnet capable of repelling and attracting the cutting plate is further fixed on the end wall of the cutting cavity, and a discharge pipeline communicated with the sliding cavity and the external space is arranged in the lower end wall of the sliding cavity.

3. The novel rust removing device for the rusted iron chain as claimed in claim 2, is characterized in that: the transmission mechanism comprises three transportation cavities positioned in the derusting box, a rotating motor is fixed on the upper end wall of each transportation cavity, the lower end of the rotating motor is in power connection with a spiral feeding shaft for transporting sand, a moving cavity which is far away from the end wall of the discharge pipeline and is communicated with the external space is arranged in the lower end wall of the transporting cavity, a rack plate is connected in the movable cavity in a sliding way, the rack plate is fixedly connected with the end wall of the movable cavity close to the discharge pipeline through a telescopic spring, a rope is fixed on the rack plate close to the end wall of the discharge pipeline, the lower end of the spiral feeding shaft penetrates through the lower end wall of the transportation cavity and the upper end wall of the moving cavity and is positioned in the moving cavity, a semi-gear meshed with the rack plate is fixed at the lower end of the spiral feeding shaft, a guide plate is fixed on the end wall of the transportation cavity close to the rust removing cavity, and a through cavity is further arranged in the end wall of the transportation cavity close to the rust removing cavity.

4. The novel rust removing device for the rusted iron chain as claimed in claim 3, is characterized in that: the horizontal sand blasting mechanism comprises a translation cavity which is positioned in the rear end wall of the rust removing cavity and is communicated with the rust removing cavity, a closed block which can cut off the communication between the rust removing cavity and the translation cavity is connected in the translation cavity in a sliding manner, a second spraying pipeline is arranged in the lifting cavity, a lifting cavity is also arranged in the rear end wall of the translation cavity, the through cavity on the right side is communicated with the transportation cavity on the right side and the lifting cavity on the right side, the through cavity on the left side is communicated with the transportation cavity on the left side and the lifting cavity on the left side, the through cavity on the rear side is communicated with the transportation cavity on the rear side and the lifting cavity, the front end wall of the lifting cavity is communicated with the translation cavity, the front end of the second spraying pipeline penetrates through the translation cavity and is positioned in the rust removing cavity, a second sand blasting pump for sand blasting is arranged in the second spraying pipeline, two translation blocks are connected in the lifting cavity in a, the upper end of the second spraying pipeline penetrates through the lifting plate and is communicated with the space on the upper side of the lifting plate, a translation spring fixedly connected with the right end and the right end wall of the lifting cavity is fixed at the right end of the translation block on the right side, one end of a rope on the left side and the right side penetrates through the end wall of the moving cavity close to the discharge pipeline and the lower end wall of the driven cavity and is fixedly connected with the first spraying pipeline, and the front end of the rope on the rear side penetrates through the front end wall of the moving cavity and the right end wall of the lifting cavity and is fixedly connected with the supporting plate.

5. The novel rust removing device for the rusted iron chain as claimed in claim 2, is characterized in that: the meshes of the filter screen can allow rust and sand to pass through.