CN115383592A

CN115383592A - Waste acid concentration pump impeller machining device and machining method thereof

Info

Publication number: CN115383592A
Application number: CN202210929642.4A
Authority: CN
Inventors: 巢煜; 巢国平; 毛友才; 莫志华
Original assignee: Jiangsu New Century Pump Co ltd
Current assignee: Jiangsu New Century Pump Co ltd
Priority date: 2022-08-04
Filing date: 2022-08-04
Publication date: 2022-11-25

Abstract

The invention discloses a machining device and a machining method for an impeller of a waste acid concentration pump, and relates to the technical field of impeller machining.

Description

Waste acid concentration pump impeller machining device and machining method thereof

Technical Field

The invention relates to the technical field of impeller processing, in particular to a processing device and a processing method for a waste acid concentration pump impeller.

Background

In the process of industrially producing titanium dioxide, a large amount of waste acid is generated, the concentration of the waste acid is low, the waste acid can be utilized by concentration, if the waste acid is not treated and recycled, the environment is seriously polluted, and if the waste acid is recycled, the economic benefit and the social benefit are obvious. In the waste acid concentration and recovery process, the waste acid generally needs to be evaporated and concentrated for many times, and a strong corrosion resistant pump needs to be used for forced circulation.

The prior waste acid concentration pump impeller needs to be fixed through a clamp in the polishing process, the impeller needs to be installed and detached before and after polishing, the overall machining efficiency is not high, and the clamping and polishing of a plurality of impellers cannot be met at one time. The existing impeller storage mode is generally stacking storage, and the impeller is inconvenient to take and place manually.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a machining device and a machining method for a waste acid concentration pump impeller.

In order to realize the purpose, the invention provides the following technical scheme:

a machining device for an impeller of a waste acid concentration pump comprises a machining table, wherein a moving frame is slidably mounted on the machining table, a guide frame is fixedly mounted on the moving frame, a lifting assembly is slidably mounted on the guide frame and used for driving a turnover assembly, the turnover assembly is used for driving a rotating pipe to rotate, the rotating pipe is of a hollow structure and is internally and fixedly provided with a fixed block, a plurality of mounting assemblies are fixedly mounted on the fixed block and used for driving an adjusting shell to horizontally move, a conveying belt is rotatably mounted on the adjusting shell, a plurality of fixed plates are fixedly mounted in the rotating pipe, a plurality of positioning assemblies are fixedly mounted on the fixed plates and used for driving positioning blocks to move, and the adjusting shell and the positioning blocks both penetrate through the rotating pipe;

the processing table is provided with a plurality of first storage grooves, the processing table is provided with a second storage groove, and limiting assemblies are fixedly arranged on the first storage grooves and the second storage grooves and are used for driving the limiting plates to move;

processing bench fixed mounting has two side to push away the subassembly, and two side push away the subassembly and be relative setting, the side pushes away the subassembly and is used for driving the side to push away a horizontal migration, rotate on the side pushes away the frame and installs the swivel mount, fixed mounting has the subassembly of polishing on the swivel mount, the subassembly of polishing is used for driving the rotation of polishing disc.

Further, machining bench top fixed mounting has two fixed curb plates, and fixed mounting has the guide bar between two fixed curb plates, and slidable mounting has first lead screw between two fixed curb plates, guide bar sliding connection removes the frame, first lead screw threaded connection removes the frame.

Furthermore, a driving assembly is fixedly mounted on the fixed side plate and used for driving the first lead screw to rotate.

Furthermore, a plurality of first storage tanks are arranged on the processing table in a rectangular array shape, and a plurality of limiting assemblies are fixedly arranged on the first storage tanks and the second storage tanks in equal radian.

Furthermore, an adjusting assembly is fixedly mounted on the guide frame and used for driving a second lead screw to rotate, and the second lead screw is in threaded connection with the lifting assembly.

Furthermore, radians such as a plurality of installation component fixed mounting are on the fixed block, rotate on the regulation shell and install a plurality of belt pulleys, connect through the conveyor belt transmission between a plurality of belt pulleys, fixed mounting has conveying assembly on the regulation shell, conveying assembly is used for driving the belt pulley rotatory.

Furthermore, a plurality of positioning components are fixedly arranged on the fixing plate in an equal radian mode.

Further, two side push assemblies are respectively arranged on two sides of the second storage groove, a rotating assembly is fixedly mounted on the side push frame and used for driving the rotating sleeve to rotate.

Further, a processing method of the waste acid concentration pump impeller processing device comprises the following steps:

the method comprises the following steps: the impeller is placed in a first storage groove of the impeller to be stacked and stored before machining, a limiting component on the first storage groove pushes a limiting plate after storage, the limiting plate limits the impeller stacked in the first storage groove, when machining is conducted, a driving component drives a first lead screw to rotate, the first lead screw drives a moving frame to move, an adjusting component drives a second lead screw to rotate, the second lead screw drives a lifting component to move horizontally, the lifting component drives a rotating pipe to move horizontally through a turnover component, and the rotating pipe moves to the position above the first storage groove where the impeller is stacked;

step two: the lifting assembly drives the turnover assembly to descend, the turnover assembly drives the rotating pipe to descend, the rotating pipe sequentially penetrates through the stacked impeller inner rings, the rear mounting assembly pushes the adjusting shell to move horizontally, a conveying belt on the adjusting shell is in contact with the walls of the impeller inner rings, the positioning assembly pushes the positioning block to move horizontally, the positioning block is in contact with the walls of the impeller inner rings to fix the stacked impellers, the limiting assembly on the first storage groove pulls the limiting plate, the limiting plate cancels contact with the impellers, the lifting assembly lifts the rotating pipe, and the rotating pipe moves to the position above the second storage groove;

step three: the side pushing assembly pushes the side pushing frames to move horizontally, the two side pushing frames move oppositely, the grinding assembly drives the grinding disc to rotate, the grinding disc grinds the bottommost impeller on the rotating pipe, the rotating assembly drives the rotating sleeve to rotate, the rotating sleeve drives the grinding disc to rotate through the grinding assembly, the grinding angle of the grinding disc is adjusted, the turnover assembly drives the rotating pipe to rotate in the grinding process, the stacked impellers are driven to rotate, the two side pushing frames return to the initial position after the bottommost impeller is ground, the positioning assembly pulls the positioning block, the positioning block cancels contact with the inner ring wall of the impeller, the conveying assembly drives the belt pulley to rotate, the belt pulley drives the conveying belt to rotate, the conveying belt conveys the stacked impellers downwards, the bottommost impeller is ground to slide out of the bottom of the rotating pipe and fall into the second storage groove, the conveying belt stops rotating, the positioning assembly pushes the positioning block to fix the inner ring wall of the other impellers, the steps are repeated to grind the other impellers, after grinding is finished, all the impellers fall into the second storage groove, the limiting assembly on the second storage groove pushes the limiting assembly to guarantee that the impellers are stacked and neat, then the impeller pipes fall into the first limiting plate, and the stacked impeller is taken out of the first storage groove, and the first limiting plate is taken out.

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

1. the machining device can adjust the position of the rotating pipe, through the design of the lifting assembly, the rotating pipe can penetrate through the inner ring of the stacked impeller, the conveying belt and the positioning block are matched to position the inner ring wall of the impeller, the conveying belt can downwards send out the machined impeller in the actual polishing process, the stacked impeller is conveniently polished, the turnover assembly is arranged, the impeller is conveniently and comprehensively polished, and the first storage grooves are arranged, so that the impeller which is not polished and is conveniently stacked and stored;

2. set up the side and push away the subassembly, can adjust the horizontal position of polishing the dish, set up rotating assembly, can drive the rotation of polishing the dish, satisfy the difference demand of polishing, set up spacing subassembly and limiting plate, guarantee that the impeller of piling up can vertically flush in first storing tank and second storing tank, the rotatory pipe of being convenient for passes the impeller inner circle that piles up in proper order.

Drawings

FIG. 1 is a schematic structural diagram of a processing device for an impeller of a waste acid concentration pump;

FIG. 2 is a schematic structural diagram of a mobile frame according to the present invention;

FIG. 3 is a side view of the mobile frame of the present invention;

FIG. 4 is a cross-sectional view of a rotary pipe according to the present invention;

FIG. 5 is a cross-sectional view of an adjustment housing of the present invention;

FIG. 6 is a schematic structural view of a side pushing frame according to the present invention;

fig. 7 is a cross-sectional view of a processing station of the present invention.

100. A processing table; 101. fixing the side plate; 102. a drive assembly; 103. a first lead screw; 104. a guide bar; 105. a first storage tank; 106. a second storage tank; 107. a limiting component; 108. a limiting plate; 109. a side push assembly; 110. a side pushing frame; 111. a rotating assembly; 112. a rotating sleeve; 113. polishing the assembly; 114. grinding disc; 200. a movable frame; 201. a guide frame; 202. an adjustment assembly; 203. a lifting assembly; 204. a turnaround component; 205. rotating the tube; 206. a fixed block; 207. mounting the component; 208. an adjustment housing; 209. a delivery assembly; 210. a belt pulley; 211. a conveyor belt; 212. a fixing plate; 213. a positioning assembly; 214. and (7) positioning the blocks.

Detailed Description

Example 1

Referring to fig. 1 to 6, a processing device for an impeller of a waste acid concentration pump comprises a processing table 100, wherein a moving frame 200 is slidably mounted on the processing table 100, two fixed side plates 101 are fixedly mounted at the top of the processing table 100, a guide rod 104 is fixedly mounted between the two fixed side plates 101, a first lead screw 103 is slidably mounted between the two fixed side plates 101, the guide rod 104 is slidably connected with the moving frame 200, and the first lead screw 103 is in threaded connection with the moving frame 200. The fixed side plate 101 is fixedly provided with a driving assembly 102, the driving assembly 102 may be a motor or a rotary cylinder, and the driving assembly 102 is used for driving the first lead screw 103 to rotate. The movable frame 200 is fixedly provided with a guide frame 201, the guide frame 201 is provided with a lifting assembly 203 in a sliding manner, the guide frame 201 is provided with an adjusting assembly 202 in a fixed manner, the adjusting assembly 202 can be a motor or a rotary cylinder, the adjusting assembly 202 is used for driving a second lead screw to rotate, the second lead screw is in threaded connection with the lifting assembly 203, and the lifting assembly 203 can be a cylinder or an oil cylinder. Lifting unit 203 is used for driving turnover subassembly 204, turnover subassembly 204 can be the motor, revolving cylinder, turnover subassembly 204 is used for driving the rotating tube 205 rotatory, rotating tube 205 is hollow structure and inside fixed mounting has fixed block 206, fixed mounting has a plurality of installation components 207 on the fixed block 206, installation component 207 can be the cylinder, the hydro-cylinder, installation component 207 is used for driving adjusting shell 208 horizontal migration, it installs conveyor belt 211 to rotate on the adjusting shell 208, fixed mounting has a plurality of fixed plates 212 in the rotating tube 205, fixed mounting has a plurality of locating component 213 on the fixed plate 212, locating component 213 can be the cylinder, the hydro-cylinder, radian fixed mounting such as a plurality of locating component 213 is on fixed plate 212. The positioning assembly 213 is used for driving the positioning block 214 to move, and both the adjusting shell 208 and the positioning block 214 penetrate through the rotating tube 205. A plurality of installation components 207 are fixedly installed on the fixing block 206 in equal radian, a plurality of belt pulleys 210 are installed on the adjusting shell 208 in a rotating mode, the belt pulleys 210 are connected in a transmission mode through a conveying belt 211, a conveying component 209 is fixedly installed on the adjusting shell 208, the conveying component 209 can be a motor, and the conveying component 209 is used for driving the belt pulleys 210 to rotate. This processingequipment can adjust the position of rotating tube 205 to through lifting unit 203's design, can let rotating tube 205 pass the impeller inner circle that piles up, and cooperate conveyor belt 211 and locating piece 214 to fix a position the inner circle wall of impeller, at the actual in-process of polishing, conveyor belt 211 can send out the impeller after the processing downwards, conveniently polishes the impeller that piles up, sets up turnover subassembly 204, makes things convenient for polishing comprehensively of impeller.

The processing table 100 is provided with a plurality of first storage tanks 105, and the processing table 100 is provided with a second storage tank 106. The first storage tanks 105 are arranged in a rectangular array on the processing table 100. A plurality of first storage tanks 105 are arranged, so that the impeller which is not polished and is polished can be conveniently stacked and stored.

The machining table 100 is fixedly provided with two side pushing assemblies 109, each side pushing assembly 109 can be an air cylinder or an oil cylinder, the two side pushing assemblies 109 are arranged oppositely, each side pushing assembly 109 is used for driving a side pushing frame 110 to move horizontally, a rotating sleeve 112 is rotatably arranged on each side pushing frame 110, a grinding assembly 113 is fixedly arranged on each rotating sleeve 112, each grinding assembly 113 can be a motor, and each grinding assembly 113 is used for driving a grinding disc 114 to rotate. The two side pushing assemblies 109 are respectively disposed at two sides of the second storage slot 106, a rotating assembly 111 is fixedly mounted on the side pushing frame 110, the rotating assembly 111 may be a motor or a revolving cylinder, and the rotating assembly 111 is used for driving the rotating sleeve 112 to rotate. The side pushing assembly 109 is arranged, the horizontal position of the polishing disc 114 can be adjusted, the rotating assembly 111 is arranged, the polishing disc 114 can be driven to rotate, and different polishing requirements are met.

Example 2

Referring to fig. 7, on the basis of embodiment 1, the first storage tank 105 and the second storage tank 106 are both fixedly mounted with a limiting assembly 107, and the limiting assembly 107 may be an air cylinder or an oil cylinder. The limiting components 107 are used for driving the limiting plates 108 to move, and the limiting components 107 are fixedly arranged on the first storage groove 105 and the second storage groove 106 in an equal radian mode. The limiting assembly 107 and the limiting plate 108 are arranged to ensure that the impellers stacked in the first storage groove 105 and the second storage groove 106 can be longitudinally leveled, so that the rotating pipe 205 can sequentially pass through the inner rings of the stacked impellers.

The working principle is as follows:

the method comprises the following steps: before machining, the impeller is placed in the first impeller storage groove 105 to be stacked and stored, the limiting component 107 on the first impeller storage groove 105 pushes the limiting plate 108 after storage, the limiting plate 108 limits the impeller stacked in the first impeller storage groove 105, during machining, the driving component 102 drives the first lead screw 103 to rotate, the first lead screw 103 drives the moving frame 200 to move, the adjusting component 202 drives the second lead screw to rotate, the second lead screw drives the lifting component 203 to move horizontally, the lifting component 203 drives the rotating pipe 205 to move horizontally through the turnover component 204, and the rotating pipe 205 moves to the position above the first impeller storage groove 105;

step two: the lifting component 203 drives the turnover component 204 to descend, the turnover component 204 drives the rotating pipe 205 to descend, the rotating pipe 205 sequentially passes through the inner rings of the stacked impellers, then the mounting component 207 pushes the adjusting shell 208 to move horizontally, the conveying belt 211 on the adjusting shell 208 is in contact with the wall of the inner ring of the impeller, the positioning component 213 pushes the positioning block 214 to move horizontally, the positioning block 214 is in contact with the wall of the inner ring of the impeller to fix the stacked impellers, the limiting component 107 on the first storage tank 105 pulls the limiting plate 108, the limiting plate 108 cancels contact with the impeller, the lifting component 203 lifts the rotating pipe 205, and the rotating pipe 205 moves to the position above the second storage tank 106;

step three: the side pushing assembly 109 pushes the side pushing frames 110 to move horizontally, the two side pushing frames 110 move oppositely, the grinding assembly 113 drives the grinding disc 114 to rotate, the grinding disc 114 grinds the bottommost impeller on the rotating pipe 205, the rotating assembly 111 drives the rotating sleeve 112 to rotate, the rotating sleeve 112 drives the grinding disc 114 to rotate through the grinding assembly 113, the grinding angle of the grinding disc 114 is adjusted, the turnover assembly 204 drives the rotating pipe 205 to rotate in the grinding process, the stacked impellers are driven to rotate, after the bottommost impeller is ground, the two side pushing frames 110 return to the initial position, the positioning assembly 213 pulls the positioning block 214, the positioning block 214 cancels contact with the inner ring wall of the impeller, the conveying assembly 209 drives the belt pulley 210 to rotate, the belt pulley 210 drives the conveying belt 211 to rotate, the conveying belt 211 conveys the stacked impellers downwards, after the bottommost impeller is ground, the bottommost impeller slides out of the bottom of the rotating pipe 205 and falls into the second storage groove 106, the conveying belt 211 stops rotating, the positioning assembly 213 pushes the impeller 214 to fix the wall of the rest inner ring walls of the rest impellers, the rest of the inner ring walls of the stacked impellers are repeatedly ground, the second storage groove 106 falls into the limiting plate 106, and all the stacking grooves 108 are sequentially pushed to descend, and all the stacking impellers 105 are taken out, and all the stacking plates of the stacking impellers 205.

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 present template may be made by those skilled in the art without departing from the principles of the present invention.

Claims

1. The utility model provides a spent acid concentrator pump impeller processingequipment, includes processing platform (100), its characterized in that, slidable mounting has removal frame (200) on processing platform (100), fixed mounting has leading truck (201) on removal frame (200), slidable mounting has lifting unit (203) on leading truck (201), lifting unit (203) are used for driving turnover subassembly (204), turnover subassembly (204) are used for driving rotatory pipe (205) rotatory, rotatory pipe (205) are hollow structure and inside fixed mounting has fixed block (206), fixed mounting has a plurality of installation components (207) on fixed block (206), installation components (207) are used for driving regulation shell (208) horizontal migration, the rotation mounting has conveyer belt (211) on regulation shell (208), fixed mounting has a plurality of fixed plates (212) in rotatory pipe (205), fixed mounting has a plurality of locating components (213) on fixed plate (212), locating component (213) are used for driving locating piece (214) to move, regulation shell (208), locating piece (214) all run through rotatory pipe (205);

the processing table (100) is provided with a plurality of first storage grooves (105), the processing table (100) is provided with a second storage groove (106), the first storage grooves (105) and the second storage groove (106) are both fixedly provided with limiting assemblies (107), and the limiting assemblies (107) are used for driving the limiting plates (108) to move;

processing platform (100) are gone up fixed mounting and are had two sides to push away subassembly (109), and two sides push away subassembly (109) and are relative setting, side pushes away subassembly (109) and is used for driving side to push away frame (110) horizontal migration, it installs swivel sleeve (112) to rotate on side pushes away frame (110), fixed mounting has grinding assembly (113) on swivel sleeve (112), grinding assembly (113) are used for the drive to polish dish (114) rotatory.

2. A waste acid concentrating pump impeller processing device as claimed in claim 1, characterized in that two fixed side plates (101) are fixedly mounted at the top of the processing table (100), a guide rod (104) is fixedly mounted between the two fixed side plates (101), a first lead screw (103) is slidably mounted between the two fixed side plates (101), the guide rod (104) is slidably connected with the movable frame (200), and the first lead screw (103) is in threaded connection with the movable frame (200).

3. A spent acid concentrating pump impeller processing apparatus according to claim 2, wherein a drive assembly (102) is fixedly mounted on the fixed side plate (101), and the drive assembly (102) is used for driving the first lead screw (103) to rotate.

4. A spent acid concentrating pump impeller processing device as claimed in claim 3, wherein the first storage tanks (105) are arranged on the processing table (100) in a rectangular array, and the limiting components (107) are fixedly arranged on the first storage tanks (105) and the second storage tanks (106) in equal radian.

5. A waste acid concentrating pump impeller processing device as claimed in claim 4, characterized in that an adjusting component (202) is fixedly mounted on the guide frame (201), the adjusting component (202) is used for driving a second lead screw to rotate, and the second lead screw is in threaded connection with the lifting component (203).

6. A waste acid concentrating pump impeller processingequipment according to claim 5, characterized by, a plurality of installation component (207) constant radian fixed mounting are on fixed block (206), adjust and rotate on the shell (208) and install a plurality of belt pulleys (210), pass through conveyor belt (211) transmission connection between a plurality of belt pulleys (210), adjust and fixedly install on the shell (208) and carry subassembly (209), carry subassembly (209) and be used for driving belt pulley (210) rotatory.

7. A spent acid concentrating pump impeller processing apparatus according to claim 6, wherein the plurality of locating components (213) are fixedly mounted on the stationary plate (212) in equal arcs.

8. A waste acid concentrating pump impeller processing device as claimed in claim 7, characterized in that two side pushing assemblies (109) are respectively arranged at two sides of the second storage tank (106), a rotating assembly (111) is fixedly mounted on the side pushing frame (110), and the rotating assembly (111) is used for driving the rotating sleeve (112) to rotate.

9. The method for machining an impeller machining device for a waste acid concentrating pump according to any one of claims 1 to 8, wherein the method comprises the following steps:

the method comprises the following steps: before machining, the impeller is placed in a first impeller storage groove (105) to be stacked and stored, a limiting component (107) on the first impeller storage groove (105) pushes a limiting plate (108) after storage, the limiting plate (108) limits the impeller stacked in the first impeller storage groove (105), when machining is conducted, a driving component (102) drives a first lead screw (103) to rotate, the first lead screw (103) drives a moving frame (200) to move, an adjusting component (202) drives a second lead screw to rotate, the second lead screw drives a lifting component (203) to horizontally move, the lifting component (203) drives a rotating pipe (205) to horizontally move through a turnover component (204), and the rotating pipe (205) moves to the position above the first impeller storage groove (105);

step two: the lifting assembly (203) drives the turnover assembly (204) to descend, the turnover assembly (204) drives the rotating pipe (205) to descend, the rotating pipe (205) sequentially penetrates through the inner rings of the stacked impellers, then the mounting assembly (207) pushes the adjusting shell (208) to move horizontally, a conveying belt (211) on the adjusting shell (208) is in contact with the wall of the inner ring of the impeller, the positioning assembly (213) pushes the positioning block (214) to move horizontally, the positioning block (214) is in contact with the wall of the inner ring of the impeller to fix the stacked impellers, then the limiting assembly (107) on the first storage groove (105) pulls the limiting plate (108), the limiting plate (108) cancels contact with the impeller, the lifting assembly (203) lifts the rotating pipe (205), and the rotating pipe (205) moves to the position above the second storage groove (106);

step three: the side pushing assembly (109) pushes the side pushing frames (110) to move horizontally, the two side pushing frames (110) move oppositely, the grinding assembly (113) drives the grinding disc (114) to rotate, the grinding disc (114) grinds the bottommost impeller on the rotating pipe (205), the rotating assembly (111) drives the rotating sleeve (112) to rotate, the rotating sleeve (112) drives the grinding disc (114) to rotate through the grinding assembly (113), the grinding angle of the grinding disc (114) is adjusted, the revolving assembly (204) drives the rotating pipe (205) to rotate in the grinding process, further the stacked impellers are driven to rotate, the two side pushing frames (110) return to the initial position after the bottommost impeller is ground, the positioning assembly (213) pulls the positioning block (214), the positioning block (214) cancels contact with the inner ring wall of the impeller, the conveying assembly (209) drives the belt pulley (210) to rotate, the belt (210) drives the conveying belt (211) to rotate, the conveying belt (211) conveys the stacked impellers downwards, the bottommost impeller is ground to slide from the bottom of the rotating pipe (205) and fall into the second storage groove (106), and then the other conveying belt (211) stops rotating after grinding of the impeller, and the other impeller (211) finishes the step of repeatedly grinding step of the second storage groove (213), the limiting assembly (107) on the second storage groove (106) pushes the limiting plate (108), the limiting plate (108) ensures that the impellers are orderly stacked, then the rotating pipe (205) descends and sequentially penetrates through inner rings of the stacked impellers, and the stacked impellers are taken out and placed into the first storage groove (105).