CN112924237A

CN112924237A - Sewage treatment plant is used in neodymium iron boron waste material processing

Info

Publication number: CN112924237A
Application number: CN202110102917.2A
Authority: CN
Inventors: 唐宗贵; 王根; 王仕伟
Original assignee: Anhui Jinsanlong Renewable Resources Co ltd
Current assignee: Anhui Jinsanlong Renewable Resources Co ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2021-06-08
Anticipated expiration: 2041-01-26
Also published as: CN112924237B

Abstract

The invention discloses a sewage treatment device for processing neodymium iron boron waste, and relates to the technical field of neodymium iron boron production. The invention relates to a sewage treatment device for processing neodymium iron boron waste, which is convenient for sampling high-pressure water flow in a sewage pipeline, can prevent high-pressure waste water from being sprayed onto workers during sampling, and cannot corrode clothes and skin.

Description

Sewage treatment plant is used in neodymium iron boron waste material processing

Technical Field

The invention relates to the technical field of neodymium iron boron production, in particular to a sewage treatment device for processing neodymium iron boron waste materials.

Background

Ndfeb, simply a magnet, is called "maga" because of its excellent magnetic properties, unlike the magnets we see at ordinary times; the neodymium iron boron contains a large amount of rare earth elements of neodymium, iron and boron, and has hard and brittle characteristics; in the process of processing neodymium iron boron waste, certain sewage is generated, if the sewage is directly discharged, the ecological environment is greatly influenced, so that sewage treatment operation is required to be carried out on the sewage, in the process of sewage treatment, in order to ensure that the treated sewage does not contain harmful substances, real-time monitoring operation is required to be carried out on the sewage, then, sampling operation is required to be carried out on the treated sewage, and then, a sample is detected to determine whether the treated sewage meets the discharge standard or not, because the sewage is generally a sewer pipe, and certain pressure exists when the sewage is discharged, when a worker samples, high-pressure sewage is sprayed to the worker, and corrosive substances are possibly doped in the sewage to corrode clothes and skin, the sewage treatment device for processing neodymium iron boron waste is designed, in order to solve the above problems.

Disclosure of Invention

The invention aims to provide a sewage treatment device for processing neodymium iron boron waste materials, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a sewage treatment plant is used in processing of neodymium iron boron waste material, includes clamp, lower clamp and sampling mechanism, go up the clamp and the mutual symmetric distribution of clamp down, and mutual fixed connection, sampling mechanism is fixed to be set up in the middle section position of last clamp, utilizes last clamp and lower clamp joint at the sewage pipeline outer wall, can be with sampling mechanism fixed mounting on the lateral wall of sewage pipeline to be convenient for carry out the sampling operation to highly compressed rivers in the sewage pipeline, can avoid highly compressed waste water to spray on the staff during the sampling, can not lead to the fact the corruption to clothing and skin.

In further embodiment, go up the clamp and be convex structure with lower clamp, be convenient for effectively laminate with the sewer pipe outer wall through going up the clamp and being equipped with convex structure with lower clamp, the equal level in both ends of going up the clamp extends there is first mounting panel, the equal level in both ends of clamp extends down has the second mounting panel, the through hole has been seted up to first mounting panel, and slides in the through hole and peg graft and have fastening bolt, the second mounting panel is seted up and is matchd the first screw hole of pegging graft with fastening bolt, runs through the through hole of first mounting panel through fastening bolt and peg graft with the first screw hole internal rotation of second mounting panel, can splice last clamp and lower clamp together like this, realizes fixed mounting at the sewer pipe outer wall to be convenient for supplementary fixed sampling mechanism.

In a further embodiment, the bottom opening part of first screw hole is equipped with oval cavity stainless steel shell fragment, second screw hole has all been seted up at the upper and lower both ends of oval cavity stainless steel shell fragment, fastening bolt's most advanced rotation runs through the second screw hole of upside, and pegs graft with the second screw hole of downside is inside, rotates the second screw hole that runs through the upside through fastening bolt's most advanced, and pegs graft with the second screw hole of downside is inside, along with fastening bolt's the incessant feeding, can make oval cavity stainless steel shell fragment produce deformation to produce the bounce-back potential energy, can avoid fastening bolt upset and relax, the effective concatenation of clamp and lower clamp in the influence.

In a further embodiment, sampling mechanism is including sampling barrel and butt joint pipe, the sampling barrel sets up the middle section top position at last clamp perpendicularly, the butt joint pipe sets up the middle section position below at last clamp perpendicularly, and runs through behind the last clamp with sampling barrel bottom fixed connection, butt joint pipe and sewage pipe lateral wall seamless grafting set up the middle section position below at last clamp perpendicularly through the butt joint pipe, and run through behind the last clamp with sampling barrel bottom fixed connection, can be synchronous with butt joint pipe and sewage pipe lateral wall seamless grafting when last clamp and lower clamp joint behind the sewage pipe outer wall to with sampling mechanism with install at the sewage pipe lateral wall.

In a further embodiment, the sampling mechanism further comprises a pull rod, a T-shaped buffer rod and a cylindrical hollow rubber sleeve, the pull rod extends into the sampling cylinder in a sliding manner, the radial outer wall of the cylindrical hollow rubber sleeve is in sliding fit with the radial side wall of the inner part of the sampling cylinder, a plurality of upright rods which are uniformly distributed in an annular manner are vertically arranged at the upper end of the cylindrical hollow rubber sleeve, a top disc is fixedly arranged between the upper ends of the upright rods, the top disc is positioned under the pull rod, a T-shaped buffer groove is formed in the bottom end of the pull rod, the T-shaped buffer rod is inserted into the T-shaped buffer groove in a sliding manner, the bottom end of the T-shaped buffer rod extends to the space between the top disc and the cylindrical hollow rubber sleeve, a first rubber sealing block which is matched and attached with the inner part of the cylindrical hollow rubber sleeve is fixedly arranged at the bottom end of the T-shaped buffer rod, and an inverted L-shaped liquid guide tube, the butt joint pipe through sampling barrel bottom flows backwards, enter into the sampling barrel in, through upwards mentioning the pull pole, can drive T type buffer lever and adjust up in step, make inside first rubber seal piece can break away from cylindricality hollow rubber sleeve, rivers can pass through cylindricality hollow rubber sleeve inside, see through the clearance between two adjacent pole settings like this, get into the sampling barrel inner space who lies in cylindricality hollow rubber sleeve top, then derive through handstand L type catheter, realize quick sampling operation.

In a further embodiment, a cross beam is radially arranged at the bottom end in the cylindrical hollow rubber sleeve, a top rod is vertically arranged at the middle position of the bottom end of the cross beam, the bottom end of the top rod penetrates through the interior of the butt joint pipe and extends to the lower part of the butt joint pipe, a second rubber sealing block for sealing the bottom end opening of the butt joint pipe is fixedly arranged at the bottom end of the top rod, a T-shaped buffer rod can be driven to press downwards by pressing a drawing rod downwards along the interior of the sampling cylinder body, the first rubber sealing block is synchronously driven to press downwards in a space between the top disc and the cylindrical hollow rubber sleeve, the cylindrical hollow rubber sleeve can be driven to slide along the interior of the sampling cylinder body after the first rubber sealing block is pressed against the cross beam, so that the top rod can be driven to downwards adjust, the second rubber sealing block can be used for jacking the first rubber sealing block towards the side far away from the bottom end opening of the butt joint pipe, and water, realize the sampling operation, but utilize the sealed piece of first rubber to seal the opening of cylindricality hollow rubber cover, can't directly derive through handstand L type catheter directly, can avoid highly compressed waste water to spray on the staff when making the sampling like this, can not lead to the fact the corruption to clothing and skin.

In further embodiment, the outer wall of pull pole slides and cup joints the spring of the top of sampling barrel, through setting up the spring, is convenient for jack-up pull pole upwards in real time, can utilize the sealed piece of second rubber to block up and dock the pipe bottom opening, can avoid sewage to enter into the sampling barrel at will like this in, the fixed spacing dish that is located the spring top that is equipped with in top of pull pole, and the radial lateral wall symmetry of spacing dish is equipped with two handles, through holding two handles, can be through spacing dish auxiliary operation pull pole.

Compared with the prior art, the invention has the beneficial effects that:

the invention relates to a sewage treatment device for processing neodymium iron boron waste, which is convenient for sampling high-pressure water flow in a sewage pipeline, can prevent high-pressure waste water from being sprayed onto workers during sampling, and cannot corrode clothes and skin.

Drawings

FIG. 1 is an exploded view of the main structure of the present invention;

FIG. 2 is a partial cross-sectional view of the sampling mechanism of the present invention;

fig. 3 is an enlarged view of the structure a in fig. 1 according to the present invention.

In the figure: 1. an upper hoop; 11. a first mounting plate; 12. fastening a bolt; 2. a lower hoop; 21. a second mounting plate; 22. a first threaded hole; 23. an elliptical hollow stainless steel spring plate; 24. a second threaded hole; 3. a sampling mechanism; 31. sampling a cylinder body; 32. butt-joint pipes; 33. a pull rod; 34. a limiting disc; 35. a spring; 36. an inverted L-shaped catheter; 37. a top rod; 38. a second rubber sealing block; 39. a T-shaped buffer tank; 310. a T-shaped buffer rod; 311. a first rubber seal block; 312. a cylindrical hollow rubber sleeve; 313. erecting a rod; 314. a top tray; 315. a cross member.

Detailed Description

The embodiment of the application solves the problems in the prior art by providing the sewage treatment device for processing the neodymium iron boron waste; the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Please refer to fig. 1-3, this embodiment provides a sewage treatment device for processing neodymium iron boron waste, including last clamp 1, lower clamp 2 and sampling mechanism 3, go up clamp 1 and the mutual symmetric distribution of lower clamp 2, and mutual fixed connection, sampling mechanism 3 is fixed to be set up in the middle section position of last clamp 1, utilize last clamp 1 and the joint of lower clamp 2 at the sewage pipe outer wall, can be with sampling mechanism 3 fixed mounting on the lateral wall of sewage pipe, thereby be convenient for carry out the sampling operation to the highly compressed rivers in the sewage pipe, can avoid highly compressed waste water to spray on the staff during the sampling, can not lead to the fact the corruption to clothing and skin.

In order to solve the problem how to splice upper clamp 1 and lower clamp 2, upper clamp 1 and lower clamp 2 are circular arc structures, be convenient for effectively laminate with the sewer pipe outer wall through being equipped with circular arc structure with upper clamp 1 and lower clamp 2, the equal level extension in both ends of upper clamp 1 has first mounting panel 11, the equal level extension in both ends of lower clamp 2 has second mounting panel 21, first mounting panel 11 has seted up the through hole, and it has fastening bolt 12 to slide the grafting in the through hole, second mounting panel 21 sets up the first screw hole 22 of pegging graft with fastening bolt 12 matching, run through behind the through hole of first mounting panel 11 through fastening bolt 12 and peg graft with the first screw hole 22 internal rotation of second mounting panel 21, can splice upper clamp 1 together with lower clamp 2 like this, realize fixed mounting at the sewer pipe outer wall, thereby be convenient for supplementary fixed sampling mechanism 3.

In order to solve the problem how to avoid fastening bolt 12 upset and lax, the bottom opening part of first screw hole 22 is equipped with oval cavity stainless steel shell fragment 23, second screw hole 24 has all been seted up at the upper and lower both ends of oval cavity stainless steel shell fragment 23, fastening bolt 12's most advanced rotation runs through the second screw hole 24 of upside, and peg graft with the second screw hole 24 inside of downside, most advanced rotation through fastening bolt 12 runs through the second screw hole 24 of upside, and peg graft with the second screw hole 24 inside of downside, along with fastening bolt 12 constantly give, can make oval cavity stainless steel shell fragment 23 produce deformation, and produce bounce-back potential energy, can avoid fastening bolt 12 upset and lax, the influence is gone up clamp 1 and is effectively spliced with lower clamp 2.

In order to solve the problem how the sampling mechanism 3 is installed at the sewage pipeline lateral wall, the sampling mechanism 3 includes sampling barrel 31 and butt joint pipe 32, sampling barrel 31 sets up the middle section top position at last clamp 1 perpendicularly, butt joint pipe 32 sets up the middle section position below at last clamp 1 perpendicularly, and run through behind the last clamp 1 with sampling barrel 31 bottom fixed connection, butt joint pipe 32 and sewage pipeline lateral wall seamless grafting, set up the middle section position below at last clamp 1 perpendicularly through butt joint pipe 32, and run through behind the last clamp 1 with sampling barrel 31 bottom fixed connection, can be synchronous with butt joint pipe 32 and sewage pipeline lateral wall seamless grafting behind the sewage pipeline outer wall when last clamp 1 and lower clamp 2 joint, thereby with sampling mechanism 3 with install at the sewage pipeline lateral wall.

In order to solve the problem of how to perform sampling by the sampling mechanism 3, the sampling mechanism 3 further comprises a pull rod 33, a T-shaped buffer rod 310 and a cylindrical hollow rubber sleeve 312, the pull rod 33 extends into the sampling cylinder 31 in a sliding manner, the radial outer wall of the cylindrical hollow rubber sleeve 312 is in sliding fit with the radial side wall of the inner part of the sampling cylinder 31, the upper end of the cylindrical hollow rubber sleeve 312 is vertically provided with a plurality of upright posts 313 which are uniformly distributed in an annular manner, a top disc 314 is fixedly arranged between the upper ends of the upright posts 313, the top disc 314 is positioned under the pull rod 33, the bottom end of the pull rod 33 is provided with the T-shaped buffer groove 39, the T-shaped buffer rod 310 is inserted into the T-shaped buffer groove 39 in a sliding manner, the bottom end of the T-shaped buffer rod 310 extends to the space between the top disc 314 and the cylindrical hollow rubber sleeve 312, and the bottom end of the T-shaped buffer rod 310 is fixedly provided with a first rubber sealing, the outer wall top of sampling barrel 31 is connected with inverted L type catheter 36, carry out the refluence through the butt joint pipe 32 of sampling barrel 31 bottom, enter into sampling barrel 31, through upwards mentioning pull pole 33, can drive T type buffer pole 310 and adjust up in step, make first rubber seal piece 311 can break away from cylindricality hollow rubber sleeve 312 inside, rivers can pass through cylindricality hollow rubber sleeve 312 inside, see through the clearance between two adjacent pole settings 313 like this, get into the sampling barrel 31 inner space who lies in cylindricality hollow rubber sleeve 312 top, then derive through inverted L type catheter 36, realize quick sampling operation.

In order to further solve the problem of how to perform sampling by the sampling mechanism 3, a cross beam 315 is radially arranged at the bottom end inside the cylindrical hollow rubber sleeve 312, a top rod 37 is vertically arranged at the middle position of the bottom end of the cross beam 315, the bottom end of the top rod 37 penetrates through the inside of the butt joint pipe 32 and extends to the lower part of the butt joint pipe 32, a second rubber sealing block 38 for sealing the bottom end opening of the butt joint pipe 32 is fixedly arranged at the bottom end of the top rod 37, the T-shaped buffer rod 310 can be driven to press downwards by pressing the pull rod 33 downwards along the inside of the sampling cylinder 31, the first rubber sealing block 311 is synchronously driven to press downwards in the space between the top disc 314 and the cylindrical hollow rubber sleeve 312, when the first rubber sealing block 311 abuts against the cross beam 315, the cylindrical hollow rubber sleeve 312 can be driven to slide along the inside of the sampling cylinder 31, so that the top rod 37 can be driven to downwards move, and thus the second rubber sealing block 38 can jack the first rubber sealing block, can make the inside water of sewer pipe enter into sampling barrel 31 in, realize the sampling operation, but utilize first rubber seal block 311 to seal the opening of cylindricality hollow rubber cover 312, can't directly derive through handstand L type catheter 36 directly, can avoid highly compressed waste water to spray on the staff when making the sampling like this, can not lead to the fact the corruption to clothing and skin.

Example two

Referring to fig. 1, a further improvement is made on the basis of embodiment 1:

in order to solve the problem of how to assist operation pull pole 33, the outer wall of pull pole 33 slides and cup joints the spring 35 of the top of sampling barrel 31, through setting up spring 35, be convenient for in real time upwards jack-up pull pole 33, can utilize second rubber seal piece 38 to block up butt joint pipe 32 bottom opening, can avoid sewage to enter into sampling barrel 31 at will like this, the fixed spacing dish 34 that is located the spring 35 top that is equipped with in top of pull pole 33, and the radial lateral wall symmetry of spacing dish 34 is equipped with two handles, through holding two handles, can be through spacing dish 34 assist operation pull pole 33.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a sewage treatment plant is used in neodymium iron boron waste processing, includes last clamp (1), lower clamp (2) and sampling mechanism (3), its characterized in that: go up clamp (1) and the mutual symmetric distribution of lower clamp (2), and mutual fixed connection, sampling mechanism (3) are fixed to be set up in the middle section position of last clamp (1).

2. The sewage treatment device for processing the neodymium iron boron waste material according to claim 1, characterized in that: go up clamp (1) and lower clamp (2) and be circular arc structure, the equal level in both ends of going up clamp (1) extends and has first mounting panel (11), the equal level in both ends of lower clamp (2) extends and has second mounting panel (21), the through hole has been seted up in first mounting panel (11), and slides in the through hole and peg graft and have fastening bolt (12), first screw hole (22) of pegging graft with fastening bolt (12) matching are seted up in second mounting panel (21).

3. The sewage treatment device for processing neodymium iron boron waste material of claim 2, characterized in that: the bottom opening part of first screw hole (22) is equipped with oval cavity stainless steel shell fragment (23), second screw hole (24) have all been seted up at the upper and lower both ends of oval cavity stainless steel shell fragment (23), the most advanced second screw hole (24) that run through the upside that rotate of fastening bolt (12), and with the inside grafting of second screw hole (24) of downside.

4. The sewage treatment device for processing the neodymium iron boron waste material according to claim 1, characterized in that: sampling mechanism (3) are including sampling barrel (31) and butt joint pipe (32), sampling barrel (31) set up the middle section top position in last clamp (1) perpendicularly, butt joint pipe (32) set up the middle section position below in last clamp (1) perpendicularly, and run through behind last clamp (1) and sampling barrel (31) bottom fixed connection, butt joint pipe (32) and sewer line lateral wall seamless grafting.

5. The sewage treatment device for processing neodymium iron boron waste material according to claim 4, characterized in that: the sampling mechanism (3) further comprises a drawing rod (33), a T-shaped buffer rod (310) and a cylindrical hollow rubber sleeve (312), the drawing rod (33) extends to the inside of the sampling cylinder body (31) in a sliding mode, the radial outer wall of the cylindrical hollow rubber sleeve (312) is attached to the radial side wall of the inside of the sampling cylinder body (31) in a sliding mode, a plurality of upright rods (313) which are uniformly distributed in an annular mode are vertically arranged at the upper end of the cylindrical hollow rubber sleeve (312), a top disc (314) is fixedly arranged between the upper ends of the upright rods (313), the top disc (314) is located under the drawing rod (33), the T-shaped buffer groove (39) is formed in the bottom end of the drawing rod (33), the T-shaped buffer rod (310) is inserted into the T-shaped buffer groove (39) in a sliding mode, and the bottom end of the T-shaped buffer rod (310) extends to the space between the top disc (314) and the cylindrical hollow rubber sleeve (312), and the bottom end of the T-shaped buffer rod (310) is fixedly provided with a first rubber sealing block (311) which is matched and attached with the inside of the cylindrical hollow rubber sleeve (312), and the top of the outer wall of the sampling cylinder body (31) is connected with an inverted L-shaped liquid guide pipe (36).

6. The sewage treatment device for processing the neodymium iron boron waste material according to claim 5, characterized in that: the inside bottom of cylindricality cavity rubber sleeve (312) radially is equipped with crossbeam (315), the bottom middle section position of crossbeam (315) is equipped with ejector pin (37) perpendicularly, inside butt joint pipe (32) was run through to the bottom of ejector pin (37), and extended to the below of butt joint pipe (32), the bottom mounting of ejector pin (37) is equipped with and is used for sealed butt joint pipe (32) bottom open-ended second rubber seal piece (38).

7. The sewage treatment device for processing the neodymium iron boron waste material according to claim 5, characterized in that: the outer wall of pull pole (33) slides and is cup jointed spring (35) of the top of sampling barrel (31), the top of pull pole (33) is fixed and is equipped with spacing dish (34) that are located spring (35) top, and the radial lateral wall symmetry of spacing dish (34) is equipped with two handles.