CN115157127A

CN115157127A - Controllable continuous abrasive-adding steel cable rust removal device

Info

Publication number: CN115157127A
Application number: CN202210812990.3A
Authority: CN
Inventors: 余葵; 王洪铭; 彭炳力; 周昱焘; 任奥博; 杨小岳; 廖斌; 刘子煜
Original assignee: Chongqing Jiaotong University
Current assignee: Chongqing Jiaotong University
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-10-11
Anticipated expiration: 2042-07-11
Also published as: GB202308215D0; GB2621013A; CN115157127B

Abstract

The invention belongs to the technical field of rust removal, and particularly relates to a controllable continuous abrasive feeding steel cable rust removal device which comprises a carrying vehicle with a driving part, wherein an installation chamber is arranged on the carrying vehicle, a water storage tank is arranged on the installation chamber, a water circulation supercharger and an air circulation supercharger are arranged in the installation chamber, a mixing device is arranged on the carrying vehicle, the mixing device comprises a material mixing tank and a grinding material tank, a material conveyor communicated with the material mixing tank is arranged on the material mixing tank, a flushing pipe is connected onto the material mixing tank, a rust removal nozzle is arranged at one end of the flushing pipe and comprises two half-cylinder shells hinged to each other, a catching groove and a first transit groove are formed in each half-cylinder shell, a rust removal core is arranged in each half-cylinder shell, a boss is arranged on each rust removal core, a second transit groove is formed in each boss, a plurality of jet orifices are formed in each second transit groove, and a plurality of fins are arranged in each second transit groove, so that the problems of low rust removal efficiency, fixed jet angles and inconvenience in rust removal of a steel cable in the traditional rust removal mode are solved.

Description

Controllable continuous abrasive-adding steel cable rust removal device

Technical Field

The invention belongs to the technical field of rust removal, and particularly relates to a controllable continuous abrasive-adding steel cable rust removal device.

Background

In recent years, the country has vigorously pursued remanufacturing industry construction. Compared with the manufacturing of completely new parts, the parts produced by remanufacturing can save 60% of cost, 50% of energy and 70% of materials, and no waste polluting the environment is generated in the production process. At present, the requirement for the rust removal equipment which is clean, efficient and simple and convenient to operate is increasing day by day in China, and the equipment has a very wide application prospect.

The existing rust removal mode mainly adopts mechanical rust removal and chemical rust removal modes of polishing, abrasive material spraying and shot blasting. The traditional mechanical rust removal has low polishing and rust removal efficiency and large workload, and cannot adapt to the rust removal work of metal components with complicated shapes such as uneven metal surfaces; the grain diameters of the steel abrasive and the steel shot are generally large, a transition surface cannot be formed in a place with paint, so that the subsequent coating is not facilitated, particle dust is generated in the rust removing process, the health of workers is injured, the environment is polluted, and the steel abrasive is not suitable for being recycled, so that the cost is high; chemical rust removal has high energy consumption and pollution, the rust removal process is not easy to control, and the application of chemical rust removal in engineering practice is strictly limited by the country. Meanwhile, the existing derusting equipment is fixed in injection angle, so that derusting of the braided rigid cable is inconvenient.

Disclosure of Invention

Based on the problems mentioned in the background technology, the invention provides a controllable continuous abrasive-adding steel cable rust removal device, which is used for solving the problems of low rust removal efficiency, fixed injection angle and inconvenience in rust removal of braided cables in the traditional rust removal mode.

The technical scheme adopted by the invention is as follows:

the utility model provides a controllable in succession adds abrasive material steel cable rust cleaning device, is including the lift car that has drive disk assembly, be equipped with the installation room on the lift car, install the water storage box on the installation room, be equipped with the water inlet on the water storage box, install hydrologic cycle booster and gas circulation booster in the installation room, install mixing arrangement on the lift car, mixing arrangement includes compounding jar and abrasive tank, is equipped with the feed inlet on the abrasive tank, the end of intaking and water storage box intercommunication, play water end and compounding jar intercommunication of hydrologic cycle booster, the exhaust end and the compounding jar intercommunication of gas circulation booster, install the feeder with compounding jar intercommunication on the compounding jar, be connected with the flushing pipe on the compounding jar, the rust cleaning shower nozzle is installed to the one end of flushing pipe, the rust cleaning shower nozzle includes two half shell of mutual articulated, and two half shell connect through the fastener, catching groove and first transit groove have been seted up on the half shell, all be equipped with the rust cleaning core in the half shell, be equipped with the boss on the rust cleaning core, set up the second transit groove, be equipped with a plurality of second fin jet in the second transit inslot.

On the basis of the technical scheme, the invention also improves the following steps:

further, a sealing groove is formed in the half-cylinder shell, and a sealing gasket is installed in the sealing groove. After the two half-cylinder shells are folded, the gap between the two half-cylinder shells can be sealed under the action of the sealing gasket, so that the problem that the rust removing capability is reduced due to the fact that large water abrasive is sprayed out from the gap between the two half-cylinder shells in the rust removing process is avoided.

Furthermore, a plurality of blind holes are formed in the rust removing core, clamping pins penetrate through the blind holes, springs are arranged at one ends of the clamping pins, anti-falling rings are screwed in the blind holes, and the clamping pins penetrate through the anti-falling rings. The mooring rope can be placed in the middle of the sealed derusting core through the clamping pin, so that the overlarge impact force difference of water abrasive ejected by each jet orifice to the mooring rope is avoided; meanwhile, one end of the clamping pin is matched with the grains on the stretching surface, and the rotation of the derusting core can be guided.

Further, the fastener comprises a hanging buckle and a buckle seat, and the hanging buckle and the buckle seat are respectively installed on the two half cylinder shells. After the two half-cylinder shells are closed, the hanging buckle is inserted into the buckle seat, and then the two half-cylinder shells can be fixed and kept in a closed state.

Further, the feeder is including installing the step motor on the abrasive material jar, the defeated feed cylinder is installed to the abrasive material tank bottoms end, the discharge gate has been seted up on the defeated feed cylinder, install the auger delivery pole on step motor's the motor shaft, the auger delivery pole is located the defeated feed cylinder. The step motor drives the spiral conveying rod to rotate, so that the grinding materials in the grinding material tank can be injected into the mixing tank, the injection speed of the grinding materials can be controlled by controlling the rotating speed of the step motor, the grinding materials can be continuously added, meanwhile, the mixing ratio of the water grinding materials is controlled according to different corrosion degrees, and the deep rust removal purpose is achieved.

Further, the bottom of the abrasive tank is of a conical structure. The grinding materials in the grinding material tank are more easily concentrated towards the material conveying cylinder.

Further, install the cover body on the carrying vehicle, installation room, water storage tank and mixing arrangement all are located the cover body, install the handrail frame on the cover body. All parts are protected and isolated, and the trend of the carrying vehicle can be conveniently controlled through the handrail frame.

The invention has the beneficial effects that:

1. the water circulation supercharger can inject water into the material mixing tank for pressurization, the material conveyor can add the abrasive material injected into the abrasive material tank into the material mixing tank, the air circulation supercharger can inject air into the material mixing tank for pressurization so that the water and the abrasive material in the material mixing tank are fully mixed to form the water abrasive material, and the water abrasive material is sprayed out through the flushing pipe and the rust removal spray head for rust removal;

2. the water abrasive has small damage to the surface of the material, and is convenient for the subsequent coating of the workpiece;

3. the rust removing core can rotate, the jet orifice rotates along with the rust removing core and sprays water abrasive to clean and remove rust on the steel cable, dead angles can not occur, and the rust removing effect is good.

Drawings

The invention is further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic structural diagram of a controllable continuous abrasive-feeding wire rope derusting device according to an embodiment of the invention;

FIG. 2 is a schematic sectional view of a mixing device according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic longitudinal sectional structure of the rust removing nozzle in the embodiment of the invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 4;

FIG. 6 is a schematic structural diagram of a rust removing nozzle in the embodiment of the invention;

FIG. 7 is a first structural schematic diagram of a rust removing core in the embodiment of the invention;

FIG. 8 is a structural schematic diagram II of a rust removing core in the embodiment of the invention;

FIG. 9 is a schematic structural view of a half-cartridge housing in an embodiment of the present invention;

the main element symbols are as follows:

the device comprises a cover body 1, a handrail frame 10, a driving part 11, an installation chamber 2, a water storage tank 3, a mixing tank 41, an abrasive material tank 42, a material conveying cylinder 421, a material outlet 422, a stepping motor 43, a spiral conveying rod 44, a flushing pipe 45, a semi-cylinder shell 51, a first transfer groove 52, a buckling groove 53, a sealing gasket 54, a buckling seat 551, a hanging buckle 552, a rust removing core 61, a boss 62, a second transfer groove 63, a jet orifice 64, a fin 65, a blind hole 66, a clamping pin 671, an anti-release ring 672 and a spring 673.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in figures 1-9, a controllable continuous abrasive feeding steel cable rust removing device comprises a carrying vehicle with a driving part 11, wherein the carrying vehicle is provided with an installation chamber 2 and a mixing device, the carrying vehicle is provided with a cover body 1, the installation chamber 2, a water storage tank 3 and the mixing device are all positioned in the cover body 1, the cover body 1 is provided with a handrail frame 10 for protecting and isolating each part, the trend of the carrying vehicle is convenient to control through the handrail frame 10, the installation chamber 2 is provided with the water storage tank 3, the water storage tank 3 is provided with a water inlet through which water can be added into the water storage tank 3, the installation chamber 2 is provided with a water circulation booster and a gas circulation booster, the carrying vehicle is provided with the mixing device, the mixing device comprises a material mixing tank 41 and a abrasive material tank 42, the abrasive material tank 42 is provided with a feeding hole through which abrasive can be added into the abrasive material mixing tank 42, the water inlet end of the water circulation booster is communicated with the water storage tank 3, and the water outlet end is communicated with the material mixing tank 41, the water in the water storage tank 3 is filled into the material mixing tank 41 by a water circulation pressurizer and pressurized, the exhaust end of the gas circulation pressurizer is communicated with the material mixing tank 41, a material conveyor communicated with the material mixing tank 41 is installed on the material mixing tank 41, the abrasive material in the abrasive material tank 42 can be added into the material mixing tank 41 through the material conveyor, the material mixing tank 41 is connected with a flushing pipe 45, the water abrasive material in the material mixing tank 41 is led out from the flushing pipe 45, one end of the flushing pipe 45 is provided with a rust removing nozzle 5, the rust removing nozzle 5 comprises two half-cylinder shells 51 which are hinged with each other, the two half-cylinder shells 51 are connected through a fastener, each half-cylinder shell 51 is provided with a buckle groove 53 and a first transit groove 52, each half-cylinder shell 51 is internally provided with a rust removing core 61, each rust removing core 61 is provided with a boss 62, each boss 62 is provided with a second transit groove 63, a plurality of jet orifices 64 are arranged in the second transit groove 63, a plurality of fins 65 are arranged in the second transit groove 63, pressurized water abrasive can be sprayed out from the spray opening 64 after entering the second transit groove 63, and the rust removing core 61 can be driven to rotate when the water abrasive enters the second transit groove 63 under the action of the fins 65.

Specifically, a sealing groove is formed in each half-cylinder shell 51, a sealing gasket 54 is installed in each sealing groove, and after the two half-cylinder shells 51 are folded, a gap between the two half-cylinder shells 51 can be sealed under the action of the sealing gasket 54, so that the problem that the rust removing capability is reduced due to the fact that large water abrasive is sprayed out from the gap between the two half-cylinder shells 51 in the rust removing process is avoided.

Specifically, a plurality of blind holes 66 are formed in the rust removing core 61, bayonet pins 671 are arranged in the blind holes 66 in a penetrating manner, springs 673 are arranged at one ends of the bayonet pins 671, anti-falling rings 672 are screwed in the blind holes 66, the bayonet pins 671 are arranged in the anti-falling rings 672 in a penetrating manner, the mooring rope 7 can be placed in the middle of the closed rust removing core 61 through the bayonet pins 671 after the two half-cylinder shells 51 are folded, and the overlarge impact force difference of water abrasive materials sprayed by the jet ports 64 on the mooring rope 7 is avoided; meanwhile, one end of the clamping pin 671 is matched with the texture of the stretching surface, and the rotation of the rust removing core 61 can be guided.

Specifically, the fastener includes a hanging buckle 552 and a buckle base 551, the hanging buckle 552 and the buckle base 551 are respectively installed on the two half-cylinder shells 51, and after the two half-cylinder shells 51 are closed, the hanging buckle 552 is inserted into the buckle base 551 to fix and keep the two half-cylinder shells 51 in the closed state.

Specifically, the feeder is including installing step motor 43 on abrasive tank 42, defeated feed cylinder 421 is installed to abrasive tank 42 bottom, the discharge gate 422 has been seted up on defeated feed cylinder 421, install spiral delivery rod 44 on step motor 43's the motor shaft, spiral delivery rod 44 is located defeated feed cylinder 421, it can pour into compounding jar 41 with the interior abrasive material of abrasive tank 42 to drive spiral delivery rod 44 rotation by step motor 43, the injection rate of abrasive material can be controlled through the rotational speed of control step motor 43, can be directed against different corrosion degrees when realizing adding the abrasive material in succession, control water abrasive material mixing ratio, reach the degree of depth rust cleaning purpose.

Specifically, the bottom of the abrasive tank 42 is tapered, and the abrasive in the abrasive tank 42 is more easily concentrated toward the feed cylinder 421.

When the device is used, the two rust removing cores 61 are respectively arranged in the two half-cylinder shells 51, then the half-cylinder shells 51 are folded to enable the rust removing cores 61 to clamp the cable 7, the clamping pin 671 extrudes the spring 673 to be matched with the surface texture of the cable 7, and the hanging buckle 552 is inserted into the buckle seat 551 to keep the two half-cylinder shells 51 in a closed state. Then, a water circulation booster, an air circulation booster and a stepping motor 43 are started, the water circulation booster injects water in the water storage tank 3 into the material mixing tank 41, the stepping motor 43 drives the spiral material conveying rod 44 to rotate to inject abrasive materials in the abrasive material tank 42 into the material mixing tank 41, the air circulation booster injects air into the material mixing tank 41 to fully mix the water and the abrasive materials to form the water abrasive materials, the water abrasive materials enter the second transfer groove 63 from the flushing pipe 45 when the water abrasive material liquid level in the material mixing tank 41 reaches the joint of the flushing pipe 45 and the material mixing tank 41, the water abrasive material impact fins 65 drive the rust removal core 61 to rotate, and meanwhile, the water abrasive materials are sprayed out from the spray opening 64 to remove rust.

The controllable continuous abrasive-adding steel cable rust removal device provided by the invention is described in detail above. The description of the specific embodiments is only intended to facilitate an understanding of the method of the invention and its core ideas. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims

1. The utility model provides a controllable continuous abrasive feeding steel cable rust cleaning device, includes the carrier loader that has drive unit (11), its characterized in that: the rust removing device is characterized in that an installation chamber (2) is arranged on the carrying vehicle, a water storage tank (3) is arranged on the installation chamber (2), a water inlet is arranged on the water storage tank (3), a water circulation supercharger and a gas circulation supercharger are arranged in the installation chamber (2), a mixing device is arranged on the carrying vehicle, the mixing device comprises a mixing tank (41) and an abrasive tank (42), a feed inlet is arranged on the abrasive tank (42), the water inlet end of the water circulation supercharger is communicated with the water storage tank (3), the water outlet end of the water circulation supercharger is communicated with the mixing tank (41), the exhaust end of the gas circulation supercharger is communicated with the mixing tank (41), a material conveyer communicated with the mixing tank (41) is arranged on the mixing tank (41), a flushing pipe (45) is connected on the mixing tank (41), a rust removing nozzle (5) is arranged at one end of the flushing pipe (45), the rust removing nozzle (5) comprises two half barrel shells (51) which are hinged with each other, the two half barrel shells (51) are connected through a fastener, a buckle groove (53) and a first middle rotating groove (52) are arranged on the half barrel shells (51), a second rotating boss (63) is arranged on the half barrel shells (51), a second rotating boss (61), a plurality of second rotating core bosses (64) is arranged on the rust removing boss (61), a plurality of fins (65) are arranged in the second transfer groove (63).

2. The controlled continuous abrasive wire rope rust removing device according to claim 1, characterized in that: a sealing groove is formed in the half-cylinder shell (51), and a sealing gasket (54) is installed in the sealing groove.

3. The controllable continuous abrasive-adding steel cable rust removing device according to claim 2, characterized in that: seted up a plurality of blind holes (66) on rust cleaning core (61), bayonet lock (671) all wear to be equipped with in blind hole (66), bayonet lock (671) one end is equipped with spring (673), threaded connection has anticreep ring (672) in blind hole (66), bayonet lock (671) are worn to locate in anticreep ring (672).

4. A controlled continuous abrasive wire rope rust cleaning device according to claim 3, characterized in that: the fastener comprises a hanging buckle (552) and a buckle seat (551), wherein the hanging buckle (552) and the buckle seat (551) are respectively arranged on the two half-cylinder shells (51).

5. The controllable continuous abrasive-adding steel cable rust removing device according to claim 1, characterized in that: the feeder is including installing step motor (43) on abrasive material jar (42), feeding cylinder (421) are installed to abrasive material jar (42) bottom, discharge gate (422) have been seted up on feeding cylinder (421), install auger delivery pole (44) on the motor shaft of step motor (43), auger delivery pole (44) are located feeding cylinder (421).

6. A controlled continuous abrasive wire rope derusting device according to claim 5, wherein: the bottom of the abrasive tank (42) is in a conical structure.

7. The controllable continuous abrasive-adding steel cable rust removing device according to claim 1, characterized in that: the carrying vehicle is provided with a cover body (1), the installation chamber (2), the water storage tank (3) and the mixing device are all located in the cover body (1), and the cover body (1) is provided with a handrail frame (10).