CN115255453A

CN115255453A - Drilling equipment is used in immersible pump shell processing

Info

Publication number: CN115255453A
Application number: CN202211205057.6A
Authority: CN
Inventors: 杨国强
Original assignee: Xuzhou Jingyi Pump Co ltd
Current assignee: Xuzhou Jingyi Pump Co ltd
Priority date: 2022-09-30
Filing date: 2022-09-30
Publication date: 2022-11-01

Abstract

The invention discloses a drilling device for processing a submersible pump shell, which comprises a base, a first transmission assembly, an outward-expanding type fixing assembly, a polymeric type fixing assembly, a bidirectional centering polishing assembly and a drilling device, wherein the first transmission assembly is arranged on the base, the polymeric type fixing assembly is arranged on the base, the outward-expanding type fixing assembly is arranged on the polymeric type fixing assembly, the bidirectional centering polishing assembly is arranged on the base, and the drilling device is arranged on the base. The invention belongs to the technical field of drilling devices, and particularly relates to a drilling device for machining a submersible pump shell, which can be used for centering and fixing a submersible pump shell with an irregular surface and polishing a drilling area.

Description

Drilling equipment is used in immersible pump shell processing

Technical Field

The invention relates to the technical field of drilling devices, in particular to a drilling device for machining a submersible pump shell.

Background

The submersible pump is an important device for pumping water from a deep well, when the submersible pump is used, the whole unit is submerged into water to work, underground water is pumped to the ground surface, the submersible pump can be used for domestic water, mine emergency rescue, industrial cooling, farmland irrigation, seawater lifting and ship load adjustment, and can also be used for fountain landscape, the submersible pump shell is produced in a casting mode, and the submersible pump shell is usually required to be drilled in the production and processing process, but the exterior of the submersible pump shell is rough due to the casting production mode, and the following problems exist during drilling:

1. because the immersible pump shell is outside comparatively crude, and the surface is very irregular, unsmooth, easily leads to the immersible pump shell can not be in vertical state when carrying out the centre gripping to the immersible pump shell, and the axis of drill bit can not be parallel with the axis of immersible pump shell during drilling, and then leads to the slope of punching.

2. The drill bit is easy to beat because of the unevenness of the shell of the submersible pump when drilling, so that the drill bit is easy to damage on the one hand, and the drilling precision is also influenced on the other hand.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides the drilling device for processing the submersible pump shell, aiming at the problem that the submersible pump shell cannot be in a vertical state easily due to the rough surface of the submersible pump shell when the submersible pump shell is clamped in the prior art, the internal part of the submersible pump shell is centered and fixed through an outward-expanding type fixing component by utilizing the characteristic of higher turning and milling processing precision, so that the central axis of the submersible pump shell is in a vertical direction, then the external part of the submersible pump shell is clamped and fixed through a polymeric type fixing component, and meanwhile, the clamping force of the jacking block on the submersible pump shell can be adjusted before clamping by utilizing the characteristic of sliding friction force, and the clamping forces of the jacking block on different positions of the submersible pump shell are the same after clamping; utilize two-way formula centering subassembly of polishing to polish in advance the position of drilling, make the drilling position more level and smooth, and then make the drill bit can not beat when drilling, utilize the characteristics of polishing block one and polishing block two with the mutual reverse rotation of the same angular velocity simultaneously, eliminate the shear stress when polishing, promote the precision of this device.

The technical scheme adopted by the invention is as follows: the invention provides a drilling device for processing a submersible pump shell, which comprises a base, a first transmission assembly, an outward-expanding type fixing assembly, a polymeric type fixing assembly, a two-way type centering polishing assembly and a drilling device, wherein the first transmission assembly is arranged on the base; the transmission assembly comprises a first motor, a transmission case, a valve assembly, a first transmission rod, a first unidirectional rotation assembly, a second unidirectional rotation assembly, a first rotation fan and a second rotation fan, the first motor is arranged on the base, the transmission case is arranged on the base and provided with a hydraulic case, a working case, a first connecting pipe and a second connecting pipe, the transmission case is arranged on the base and provided with a first cavity, a first connecting hole and a second connecting hole, the first cavity is arranged on the side wall of the transmission case, the first cavity is provided with a first stop block, one end of the first connecting hole is connected with the first cavity, one end of the second connecting hole is connected with the first cavity, and a first one-way valve is arranged in the second connecting hole, the hydraulic pressure control device comprises a first connecting hole, a second connecting hole, a valve assembly, a transmission box, a through hole, a counterweight block and a movable plate, wherein liquid can only flow from the first connecting hole to the second connecting hole and cannot flow from the first connecting hole to the second connecting hole through the first check valve; the working box is arranged in the transmission box, the other end of the first connecting hole is connected with the working box, the working box is arranged on the hydraulic box, the hydraulic box is connected with the working box through the first through hole, the first connecting pipe is L-shaped, one end of the first connecting pipe penetrates through the side wall of the transmission box and is connected with the hydraulic box, the first connecting pipe is provided with a first valve, the first valve is in a closed state initially, the first connecting pipe is closed or opened through the first valve, the second connecting pipe is in a v-21274-shaped, one end of the second connecting pipe is arranged on the side wall of the transmission box and is communicated with the other end of the second connecting hole, the other end of the first connecting pipe is arranged on the second connecting pipe and is communicated with the second connecting pipe, and the other end of the second connecting pipe is arranged on the polymeric fixing component; the valve component comprises a first moving block and a first spring, one end of the first spring is arranged on the first cavity, the first moving block is arranged at the other end of the first spring, the first moving block is movably arranged in the first cavity, the first moving block can slide in the first cavity under the action of external force, and the first moving block is initially contacted with the first stop block and blocks the second connecting hole; one end of the first transmission rod is arranged at the output end of the first motor, and the first unidirectional rotating assembly, the second unidirectional rotating assembly, the first rotating fan and the second rotating fan are arranged in the working box.

The first unidirectional rotating assembly is arranged on the first transmission rod and comprises a first internal connection ratchet wheel, a first rotating block and a first pawl, the first internal connection ratchet wheel is movably arranged on the first transmission rod and can rotate around the first transmission rod under the driving of external force, the first rotating block is arranged on the first transmission rod and is provided with a first sliding groove and a second spring; the first pawl is movably arranged in the first sliding groove, one end of the second spring is arranged on the first sliding groove, and the other end of the second spring is arranged at one end of the pawl; the unidirectional rotating assembly II is arranged on the transmission rod I, the structure of the unidirectional rotating assembly II is the same as that of the unidirectional rotating assembly I, and the structure of the unidirectional rotating assembly II and the structure of the unidirectional rotating assembly I are in a mirror image relationship.

Further, rotatory fan one is located on the inscription ratchet one, rotatory fan one and rotatory fan two are located on the one-way rotating assembly two, the structure of rotatory fan one and rotatory fan two is the mirror image relation, and when motor one drives transmission pole one clockwise rotation, transmission pole one drives one-way rotating assembly one and rotatory fan one rotates, and rotatory fan drives hydraulic oil and rotates to increase the pressure of hydraulic oil in the work box, because hydraulic oil rotates and will exert a clockwise power to rotatory fan two, hydraulic oil drives rotatory fan two and rotates.

Further, the polymerization type fixing component comprises a hydraulic transmission bin and an external fixing component, the hydraulic transmission bin is annular, the hydraulic transmission bin is arranged on the base, the other end of the connecting pipe II is communicated with the hydraulic transmission bin, a support column is arranged on the hydraulic transmission bin, the external fixing component comprises a first fixing rod, a second fixing rod, a connecting block, a connecting column, a first moving rod, a second moving rod, a third moving rod, a jacking block and a fixing bolt, the first fixing rod is arranged on the base, the second fixing rod is arranged on the base, the connecting block is arranged on the first fixing rod, a fourth sliding groove is arranged on the connecting block, the connecting column is arranged on the second fixing rod, one end of the first moving rod movably penetrates through the hydraulic transmission bin, the second moving rod is movably arranged on the connecting column, and the second moving rod rotates around the connecting column under the action of external force, the movable support is characterized in that a through groove is formed in the second moving rod, the other end of the first moving rod is movably arranged at one end of the through groove, the other end of the third moving rod is movably arranged at the other end of the through groove, the third moving rod is movably arranged in the fourth sliding groove, a protruding block is arranged on the third moving rod, the other end of the third moving rod is movably arranged on the top block, a sliding groove is formed in the top block, the top block can slide along the direction of the protruding block under the action of external force through the mutual matching of the protruding block and the sliding groove, the third moving rod is movably arranged in a penetrating mode through a fixing bolt, one end of the fixing bolt movably penetrates through the third moving rod to be in sliding contact with the sliding groove, and the acting force of the fixing bolt on the top block can be changed by screwing the other end of the fixing bolt, so that the friction force between the top block and the fixing bolt is changed.

The outward-expanding type fixing assembly comprises a supporting assembly, a transmission assembly II, a driving assembly and an internal fixing assembly, the supporting assembly is arranged on a supporting column, the transmission assembly II is arranged on a hydraulic transmission bin, the driving assembly is arranged on the supporting assembly, the internal fixing assembly is arranged on the supporting assembly, the supporting assembly comprises a supporting frame and a supporting block, the supporting frame is arranged on the supporting column, the supporting block is arranged on the supporting frame, a groove I, a groove II and a sliding groove supporting rod are arranged on the supporting frame, the groove I is arranged on the supporting frame, the groove II is arranged on the supporting frame, the sliding groove supporting rod is T-shaped, a groove III and a sliding groove III are arranged on the sliding groove supporting rod, the sliding groove III is communicated with the groove III, and the groove III is communicated with the groove I; the transmission assembly II comprises a transmission rod II, a cylindrical gear I, a cylindrical gear II, a conical gear I, a conical gear II and a transmission rod III, one end of the transmission rod II movably penetrates through the upper wall of the transmission box after passing through the hollow part of the annular hydraulic transmission bin and is arranged on the rotating fan II, the transmission rod II rotates under the driving of the rotating fan II, the cylindrical gear I is arranged on the hydraulic transmission bin, the cylindrical gear I is arranged at the other end of the transmission rod II, the cylindrical gear II is arranged on the hydraulic transmission bin, the cylindrical gear II is meshed with the cylindrical gear I, the conical gear I is arranged on the cylindrical gear II, the transmission rod III is movably arranged on the supporting block, the conical gear II is arranged on the transmission rod III, and the conical gear II is meshed with the conical gear I; the drive assembly comprises a worm, a worm wheel, a transmission rod four, a cylindrical gear three, a cylindrical gear four and a straight rack sliding block, the worm is arranged on the transmission rod three, the worm wheel is arranged on the support frame, the worm wheel is meshed with the worm, the cylindrical gear three is movably arranged in the first groove, the cylindrical gear four is movably arranged in the third groove, the cylindrical gear four is meshed with the cylindrical gear three, the transmission rod four is movably arranged on the upper wall of the first groove, one end of the transmission rod four is arranged on the worm wheel, the other end of the transmission rod four is arranged on the cylindrical gear three, the straight rack sliding block is movably arranged in the third sliding groove, and the straight rack sliding block is meshed with the cylindrical gear four.

The inner fixing assembly comprises a chain wheel, a centering fixing rod and a chain, the chain wheel is movably arranged in the groove II, one end of the centering fixing rod is arranged on the chain wheel, the centering fixing rod is provided with a groove IV, one end of the chain is arranged at one end of the straight rack sliding block, the other end of the chain penetrates through the groove IV and is arranged at the other end of the straight rack sliding block, and the chain is meshed with the chain wheel.

The bidirectional centering polishing assembly comprises a lifting frame, a polishing box, a second motor, a third transmission assembly and a polishing device, wherein the lifting frame is arranged on a base, a lifting plate and a first electric slide rail are arranged on the lifting frame, a second electric slide rail, a first sliding block and a second sliding block are arranged on the lifting plate, the lifting plate moves in the vertical direction along the first electric slide rail under the action of external power, the first sliding block moves in the horizontal direction along the second electric slide rail, the polishing box is arranged on the first sliding block, the second motor is arranged below the upper wall of the polishing box, the third transmission assembly is arranged in the polishing box, the polishing device is arranged below the lower wall of the polishing box, the third transmission assembly comprises a fifth cylindrical gear, a sixth cylindrical gear, a seventh cylindrical gear, a gear ring, a fifth transmission rod and a sixth transmission rod, and the fifth transmission rod movably penetrates through the polishing box, one end of the transmission rod V is arranged on the output end of the motor II, the cylindrical gear V is arranged on the transmission rod V, the gear ring is arranged below the lower wall of the polishing box, the cylindrical gear VII is meshed with the gear ring, the cylindrical gear VI is arranged on the lower wall of the polishing box, the cylindrical gear VI is meshed with the cylindrical gear V, the transmission rod VI movably penetrates through the lower wall of the polishing box, one end of the transmission rod VI is arranged on the cylindrical gear VII, the other end of the transmission rod VI is arranged on the cylindrical gear VI, the polishing device comprises a first polishing block and a second polishing block, the first polishing block is arranged below the lower wall of the polishing box, the first polishing block is arranged at the other end of the transmission rod V, the first polishing block is circular, the second polishing block is arranged below the lower wall of the polishing box, the second polishing block is arranged on the gear ring, and the second polishing block is circular, the second grinding block is movably arranged on the outer side of the first grinding block, and the first grinding block and the second grinding block are driven by the second motor to be in opposite directions at the same angular speed.

Wherein, drilling equipment locates on the sliding block two, drilling equipment is prior art, and no longer the repeated description.

The invention adopting the structure has the following beneficial effects:

(1) Utilize the immersible pump shell to add the inside higher characteristics of the turning precision that need of immersible pump shell, fix the immersible pump tentatively through expanding fixed subassembly outward, make the axis of immersible pump can keep vertical state.

(2) The power is transmitted by utilizing hydraulic oil, so that the polymerized external fixing component can fix the submersible pump shell again from the outside, and meanwhile, the maximum pressure of the polymerized external fixing component on the submersible pump shell is adjusted by adjusting the pressure between the fixing bolt and the polymerized external fixing component according to the relation between the sliding friction force and the positive pressure.

(3) The submersible pump shell is pressed by the aid of the characteristic that sliding friction force is only related to positive pressure and roughness of a contact surface and friction force between the fixing bolt and the polymeric external fixing component, so that pressure of the polymeric external fixing component on the submersible pump shell cannot exceed a set value, and the jacking block slides along the protruding block when the pressure of the polymeric external fixing component on the submersible pump shell exceeds the set value, so that the maximum pressure of the jacking block on the submersible pump shell is unchanged.

(4) Through the setting of transmission assembly three, make immersible pump shell when being polished the angular velocity of sanding block one with sanding block two the same, and then make immersible pump shell when being polished sanding block one and sanding block two can offset each other because the shearing stress of rotatory production has promoted the precision of processing.

Drawings

FIG. 1 is a schematic structural diagram of a drilling device for machining a submersible pump shell, which is provided by the invention;

FIG. 2 is a sectional view of the drilling device for processing the casing of the submersible pump provided by the invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic structural diagram of a first unidirectional rotating assembly of the drilling device for machining the submersible pump shell, provided by the invention;

FIG. 5 is a schematic structural diagram of a second unidirectional rotating assembly of the drilling device for machining the submersible pump shell, which is provided by the invention;

FIG. 6 is a schematic structural diagram of a hydraulic transfer bin of the drilling device for machining the submersible pump shell, provided by the invention;

fig. 7 is a schematic structural diagram of a top block of the drilling device for processing the submersible pump shell, which is provided by the invention;

fig. 8 is a schematic structural diagram of an outward-expanding fixing assembly of the drilling device for processing the submersible pump shell, provided by the invention;

fig. 9 is a schematic structural diagram of an internal fixing assembly of the drilling device for processing the submersible pump shell, which is provided by the invention;

fig. 10 is a schematic structural diagram of a gear ring of the drilling device for processing the submersible pump shell, provided by the invention;

FIG. 11 is a schematic structural diagram of a first polishing block of the drilling device for machining the submersible pump shell, which is provided by the invention;

fig. 12 is a schematic structural diagram of a transmission assembly three of the drilling device for processing the submersible pump shell provided by the invention.

<xnotran> ,1, ,2, ,3, ,4, ,5, ,6, ,7, ,8, ,9, ,21, ,22, ,23, ,24, ,25, ,26, ,27, ,28, ,221, ,222, ,223, ,224, ,225, ,226, ,227, ,228, ,229, ,2210, ,2211, ,231, ,232, ,251, ,252, ,253, ,254, ,255, ,31, ,32, ,33, ,34, ,311, ,312, ,313, ,314, ,315, ,316, ,317, ,321, ,322, ,323, ,324, ,325, ,326, ,331, ,332, ,333, ,334, ,335, ,336, ,341, ,342, ,343, ,344, ,41, ,42, ,43, ,44, ,45, ,46, ,47, ,48, ,49, ,410, ,411, </xnotran> The polishing device comprises a top block, 412, a fixing bolt, 413, a sliding groove four, 414, a penetrating groove, 415, a protruding block, 416, a sliding groove, 51, a lifting frame, 52, a polishing box, 53, a motor two, 54, a transmission assembly three, 55, a polishing device, 56, a lifting plate, 57, an electric sliding rail one, 58, a sliding block one, 59, an electric sliding rail two, 510, a sliding block two, 541, a cylindrical gear five, 542, a cylindrical gear six, 543, a cylindrical gear seven, 544, a gear ring, 545, a transmission rod five, 546, a transmission rod six, 551, a polishing block one, 552 and a polishing block two.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings 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 of the embodiments; all other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

As shown in fig. 1, fig. 2 and fig. 3, the technical solution adopted by the present invention is as follows: the invention provides a drilling device for processing a submersible pump shell, which comprises a base 1, a first transmission assembly 2, an outward-expanding type fixing assembly 3, a polymeric type fixing assembly 4, a bidirectional centering polishing assembly 5 and a drilling device 6, wherein the first transmission assembly 2 is arranged on the base 1, the polymeric type fixing assembly 4 is arranged on the base 1, the base 1 supports and fixes the first transmission assembly 2 and the polymeric type fixing assembly 4, the outward-expanding type fixing assembly 3 is arranged on the polymeric type fixing assembly 4, the outward-expanding type fixing assembly 3 and the polymeric type fixing assembly 4 fix the submersible pump shell under the driving of the first transmission assembly 2, the bidirectional centering polishing assembly 5 is arranged on the base 1, and the drilling device 6 is arranged on the base 1; the first transmission assembly 2 comprises a first motor 21, a first transmission box 22, a valve assembly 23, a first transmission rod 24, a first unidirectional rotation assembly 25, a second unidirectional rotation assembly 26, a first rotation fan 27 and a second rotation fan 28, the first motor 21 is arranged on the base 1, the transmission box 22 is provided with a hydraulic box 221, a working box 222, a first connecting pipe 223 and a second connecting pipe 224, the transmission box 22 is arranged on the base 1, the transmission box 22 is provided with a first cavity 225, a first connecting hole 226 and a second connecting hole 227, the first cavity 225 is arranged on the side wall of the transmission box 22, the first cavity 225 is provided with a first stopper 228, one end of the first connecting hole 226 is connected with the first cavity 225, one end of the second connecting hole 227 is connected with the first cavity 225, and a first one-way valve 229 is arranged in the second connecting hole 227, liquid can only flow from the first connecting hole 226 to the second connecting hole 227 through the first check valve 229 and cannot flow from the second connecting hole 227 to the first connecting hole 226, the valve assembly 23 is arranged in the first cavity 225, the hydraulic box 221 is arranged in the transmission box 22, the hydraulic box 221 is provided with a first through hole 2210, a counterweight block 8 and a moving plate 9, the first through hole 2210 is internally provided with a second check valve 2211, the liquid can only flow out of the hydraulic box 221 through the first through hole 2210 through the second check valve 2211 and cannot flow into the hydraulic box 221 through the first through hole 2210, the moving plate 9 is movably arranged in the hydraulic box 221, the counterweight block 8 is arranged on the moving plate 9, and when the hydraulic oil in the hydraulic box 221 is increased or decreased through the counterweight block 8, the pressure of the hydraulic oil in the hydraulic box 221 is equal to the pressure of the moving plate 9; the working box 222 is arranged in the transmission box 22, the other end of the connecting hole I226 is connected with the working box 222, the working box 222 is arranged on the hydraulic box 221, the hydraulic box 221 is connected with the working box 222 through the through hole I2210, the connecting pipe I223 is L-shaped, one end of the connecting pipe I223 penetrates through the side wall of the transmission box 22 and is connected with the hydraulic box 221, the connecting pipe I223 is provided with a valve I7, the valve I7 is in a closed state at the beginning, the connecting pipe I223 is closed or opened through the valve I7, the connecting pipe II 224 is in a shape of a triangle 21274, one end of the connecting pipe II 224 is arranged on the side wall of the transmission box 22 and is communicated with the other end of the connecting hole II 227, the other end of the connecting pipe I223 is arranged on the connecting pipe II 224 and is communicated with the connecting pipe II 224, and the other end of the connecting pipe II 224 is arranged on the polymeric fixing component 4; the valve component 23 comprises a first moving block 231 and a first spring 232, one end of the first spring 232 is arranged on the first cavity 225, the first moving block 231 is arranged at the other end of the first spring 232, the first moving block 231 is movably arranged in the first cavity 225, the first moving block 231 can slide in the first cavity 225 under the action of external force, and the first moving block 231 is initially contacted with the first stop block 228 and blocks the second connecting hole 227; one end of the first transmission rod 24 is arranged on the output end of the first motor 21, and the first unidirectional rotating assembly 25, the second unidirectional rotating assembly 26, the first rotating fan 27 and the second rotating fan 28 are arranged in the working box 222.

As shown in fig. 1, 2, 4 and 6, the first unidirectional rotating assembly 25 is arranged on the first transmission rod 24, the first unidirectional rotating assembly 25 includes a first internal ratchet 251, a first rotating block 252 and a first pawl 253, the first internal ratchet 251 is movably arranged on the first transmission rod 24, the first internal ratchet 251 can rotate around the first transmission rod 24 under the driving of an external force, the first rotating block 252 is arranged on the first transmission rod 24, and a first sliding groove 254 and a second spring 255 are arranged on the first rotating block 252; the first pawl 253 is movably arranged in the first sliding groove 254, one end of the second spring 255 is arranged on the first sliding groove 254, and the other end of the second spring 255 is arranged at one end of the pawl; two 26 of unidirectional rotation subassemblies are located on transfer line 24, two 26 of unidirectional rotation subassemblies' structure is the same with the structure of one 25 of unidirectional rotation subassemblies, rotatory fan 27 is located on inscribing ratchet 251, rotatory fan 27 with two 28 of rotatory fan are located on two 26 of unidirectional rotation subassemblies, and when one 21 of motor drives one 24 clockwise rotation of transfer line, one 24 of transfer lines drives one 25 of unidirectional rotation subassemblies and one 27 of rotatory fan rotates, and one 27 of rotatory fan drives hydraulic oil and rotates to increase the pressure of hydraulic oil in the work box 222, because hydraulic oil rotates and will apply a clockwise power to two 28 of rotation fans, hydraulic oil drives two 28 rotations of rotatory fan.

As shown in fig. 1, 2, 3, 6 and 7, the polymeric fixed component 4 includes a hydraulic transfer chamber 41 and an external fixed component 42, the hydraulic transfer chamber 41 is circular, the hydraulic transfer chamber 41 is disposed on the base 1, the other end of the connecting pipe two 224 is communicated with the hydraulic transfer chamber 41, the hydraulic transfer chamber 41 is provided with a support column 43, the external fixed component 42 includes a first fixed rod 44, a second fixed rod 45, a connecting block 46, a connecting column 47, a first moving rod 48, a second moving rod 49, a third moving rod 410, a top block 411 and a fixed bolt 412, the first fixed rod 44 is disposed on the base 1, the second fixed rod 45 is disposed on the base 1, the connecting block 46 is disposed on the first fixed rod 44, the connecting block 46 is provided with a fourth sliding groove 413 on the connecting column 46, the connecting column 47 is disposed on the second fixed rod 45, one end of the first moving rod 48 movably penetrates through the hydraulic transfer chamber 41, the second moving rod 49 is movably disposed on the connecting column 47, the second moving rod 49 rotates around the connecting column 47 under the external force, the moving rod 49 is provided with a penetrating groove 414, the moving rod 48 is movably disposed in the groove 415, the groove 416 is disposed on the groove 410, the groove 416 is disposed on the groove 416, the groove 416 and the groove 410, by screwing the other end of the fixing bolt 412, the acting force of the fixing bolt 412 on the top block 411 can be changed, and the friction force between the top block 411 and the fixing bolt 412 can be changed.

As shown in fig. 1, 2, 4, 5, 8 and 9, the outward-expanding fixing component 3 includes a supporting component 31, a second transmission component 32, a driving component 33 and an inner fixing component 34, the supporting component 31 is disposed on a supporting column 43, the second transmission component 32 is disposed on a hydraulic transmission bin 41, the driving component 33 is disposed on the supporting component 31, the inner fixing component 34 is disposed on the supporting component 31, the supporting component 31 includes a supporting frame 311 and a supporting block 312, the supporting frame 311 is disposed on the supporting column 43, the supporting block 312 is disposed on the supporting frame 311, the supporting frame 311 is provided with a first groove 313, a second groove 314 and a sliding groove supporting rod 315, the first groove 313 is disposed on the supporting frame 311, the second groove 314 is disposed on the supporting frame 311, the sliding groove supporting rod 315 is T-shaped, a third groove 316 and a third sliding groove 317 are disposed on the sliding groove supporting rod 315, the third groove 317 is communicated with the first groove 316, and the third groove 316 is communicated with the first groove 313; the second transmission assembly 32 comprises a second transmission rod 321, a first cylindrical gear 322, a second cylindrical gear 323, a first conical gear 324, a second conical gear 325 and a third transmission rod 326, one end of the second transmission rod 321 movably penetrates through the upper wall of the transmission box 22 through the hollow part of the annular hydraulic transmission bin 41 and is arranged on the second rotating fan 28, the second transmission rod 321 rotates under the driving of the second rotating fan 28, the first cylindrical gear 322 is arranged on the hydraulic transmission bin 41, the first cylindrical gear 322 is arranged at the other end of the second transmission rod 321, the second cylindrical gear 323 is arranged on the hydraulic transmission bin 41, the second cylindrical gear 323 is meshed with the first cylindrical gear 322, the first conical gear 324 is arranged on the second cylindrical gear 323, the third transmission rod 326 is movably arranged on the supporting block 312, the second conical gear 325 is arranged on the third transmission rod 326, and the second conical gear 325 is meshed with the first conical gear 324; drive assembly 33 includes worm 331, worm wheel 332, four 333 of transfer lines, three 334 of cylindrical gear, four 335 of cylindrical gear and spur rack sliding block 336, worm 331 is located on three 326 of transfer lines, worm wheel 332 is located on support frame 311, worm wheel 332 and worm 331 intermeshing, three 334 activities of cylindrical gear are located in recess 313, four 335 activities of cylindrical gear are located in recess three 316, four 335 and the three 334 intermeshing of cylindrical gear, the activity of four 333 of transfer lines runs through the upper wall setting of a 313 of recess, the one end of four 333 of transfer lines is located on worm wheel 332, the other end of four 333 of transfer lines is located on three 334 of cylindrical gear, spur rack sliding block 336 activity is located in three 317 of sliding tray, spur rack sliding block 336 and four 335 intermeshing of cylindrical gear.

As shown in fig. 1, 2, 4, 5, 8 and 9, the internal fixing assembly 34 includes a sprocket 341, a centering fixing rod 342 and a chain 343, the sprocket 341 is movably disposed in the second groove 314, one end of the centering fixing rod 342 is disposed on the sprocket 341, the centering fixing rod 342 is provided with a fourth groove 344, one end of the chain 343 is disposed at one end of the spur rack sliding block 336, the other end of the chain 343 passes through the fourth groove 344 and is disposed at the other end of the spur rack sliding block 336, and the chain 343 and the sprocket 341 are engaged with each other.

As shown in fig. 1, 2, 10, 11 and 12, the bidirectional centering polishing assembly 5 includes a lifting frame 51, a polishing box 52, a second motor 53, a third transmission assembly 54 and a polishing device 55, the lifting frame 51 is disposed on the base 1, the lifting frame 51 is provided with a lifting plate 56 and a first electric slide rail 57, the lifting plate 56 is provided with a second electric slide rail 59, a first slider 58 and a second slider 510, the lifting plate 56 moves along the first electric slide rail 57 in a vertical direction under the action of external power, the first slider 58 moves along the second electric slide rail 59 in a horizontal direction, the polishing box 52 is disposed on the first slider 58, the second motor 53 is disposed on the upper wall of the polishing box 52, the third transmission assembly 54 is disposed in the polishing box 52, the polishing device 55 is disposed under the lower wall of the polishing box 52, the third transmission assembly 54 includes a fifth cylindrical gear 541, a sixth cylindrical gear 542, a seventh cylindrical gear 543, a gear 544, a gear ring, a fifth transmission rod 545 and a sixth transmission rod 546, the transmission rod five 545 movably penetrates through the grinding box 52, one end of the transmission rod five 545 is arranged at the output end of the motor two 53, the cylindrical gear five 541 is arranged on the transmission rod five 545, the gear ring 544 is arranged below the lower wall of the grinding box 52, the cylindrical gear seven 543 and the gear ring 544 are meshed with each other, the cylindrical gear six 542 is arranged on the lower wall of the grinding box 52, the cylindrical gear six 542 and the cylindrical gear five 541 are meshed with each other, the transmission rod six 546 movably penetrates through the lower wall of the grinding box 52, one end of the transmission rod six 546 is arranged on the cylindrical gear seven 543, the other end of the transmission rod six 546 is arranged on the cylindrical gear six 542, the grinding device 55 comprises a grinding block one 551 and a grinding block two 552, and the grinding block one 551 is arranged below the lower wall of the grinding box 52, the first polishing block 551 is arranged at the other end of the fifth transmission rod 545, the first polishing block 551 is circular, the second polishing block 552 is arranged below the lower wall of the polishing box 52, the second polishing block 552 is arranged on the gear ring 544, the second polishing block 552 is annular, the second polishing block 552 is movably arranged outside the first polishing block 551, the first polishing block 551 and the second polishing block 552 are driven by the second motor 53 to rotate at the same angular speed in opposite directions, the drilling device 6 is arranged on the second sliding block, and the drilling device 6 is the prior art and is not described again.

When the hydraulic transmission device is used, firstly, a submersible pump shell is placed on the hydraulic transmission bin 41, the outward-expanding type fixing component 3 is arranged inside the submersible pump shell at the moment, the motor I21 is started, the motor I21 drives the transmission rod I24 to rotate clockwise, the transmission rod I24 drives the rotating block I252 to rotate, due to the fact that hydraulic oil in the working box 222 obstructs the rotating fan I27, and the internal ratchet I251 is movably arranged on the transmission rod I24, the rotating block I252 and the transmission rod I24 rotate initially, the internal ratchet I251 does not rotate, the spring II 255 is in a compression state initially, after the motor I21 rotates, the pawl I253 slides along the sliding groove I254 due to inertia and the elasticity of the spring II 255 and is meshed with the internal ratchet I251 to drive the internal ratchet I251 and the rotating fan I27 to rotate; the second unidirectional rotating component 26 and the second rotating fan 28 are installed in the direction opposite to the first unidirectional rotating component 25 and the first rotating fan 27, so that the second unidirectional rotating component 26 cannot drive the second rotating fan 28 to rotate; meanwhile, the first rotating fan 27 drives hydraulic oil in the working tank 222 to rotate, the hydraulic oil drives the second rotating fan 28 to rotate, the second rotating fan 28 drives the second transmission rod 321 to rotate, the second transmission rod 321 drives the first cylindrical gear 322, the second cylindrical gear 323, the first conical gear 324 and the second conical gear 325 to rotate, the second conical gear 325 drives the third transmission rod 326 and the worm 331 to rotate, the worm 331 drives the worm gear 332 to rotate, the worm gear 332 drives the third cylindrical gear 334, the fourth cylindrical gear 335 and the spur rack sliding block 336 to move through the fourth transmission rod 333, the spur rack sliding block 336 drives the chain 343 to rotate, the chain 343 drives the chain wheel 341 and the centering fixing rod 342 to rotate, the centering fixing rod 342 gradually opens and finally contacts with the inner wall of the submersible pump shell when rotating, and the submersible pump shell is centered and fixed from the inside of the submersible pump shell; meanwhile, the pressure borne by the hydraulic oil in the working box 222 is increased due to the rotation of the second rotating fan 28, the hydraulic oil is in contact with the first moving block 231 through the first connecting hole 226 and exerts pressure on the first moving block 231, the first moving block 231 moves upwards by overcoming the elastic force of the first spring 232 under the action of the hydraulic oil pressure and does not block the second connecting hole 227, the hydraulic oil flows into the second connecting pipe 224 through the first connecting hole 226, the first cavity 225, the first check valve 229 and the second connecting hole 227, and the hydraulic oil flows into the hydraulic transmission bin 41 through the second connecting pipe 224; because the rotation of the first rotating fan 27 forms a low-pressure area below the first rotating fan 27 and a high-pressure area above the second rotating fan 28, the hydraulic oil in the high-pressure area continuously flows into the hydraulic transmission bin 41, the hydraulic oil in the low-pressure area flows into the high-pressure area through the first rotating fan 27, as the hydraulic oil in the low-pressure area gradually decreases, the second check valve 2211 is opened under the action of the pressure difference between the hydraulic tank 221 and the low-pressure area, the hydraulic oil in the hydraulic tank 221 flows from the hydraulic tank 221 to the working tank 222 through the through hole-one and the second check valve 2211 due to the high pressure in the hydraulic tank 221 and the low pressure in the low-pressure area, and the hydraulic oil cannot flow from the second connecting pipe 224 to the hydraulic tank 221 because the first valve 7 is initially in a closed state; along with the gradual increase of hydraulic oil in the hydraulic transfer bin 41, the hydraulic oil applies pressure to one end of a first moving rod 48 to push the first moving rod 48 to move, the first moving rod 48 drives a second moving rod 49, a third moving rod 410 and a top block 411 to move, the top block 411 moves towards the submersible pump shell to clamp and fix the submersible pump shell, the maximum positive pressure of the top block 411 to the submersible pump shell can be adjusted by adjusting the positive pressure between a fixing bolt 412 and the top block 411, meanwhile, as the fixing bolt 412 is in sliding contact with the top block 411, when the pressure between the top block 411 and the submersible pump shell exceeds the maximum static force between the fixing bolt 412 and the top block 411, the top block 411 can slide relative to the fixing bolt 412, the pressure between each fixing bolt 412 and each top block 411 is the same, the maximum acting force of each top block 411 to the submersible pump shell is the same, when each top block 411 and the fixing bolt 412 slide, the motor-21 is closed, at the moment, the top block 411 fully fixes the shell, and as a worm gear effect of a worm gear 331, the external expansion type fixing component 331 is used for fixing the shell 3 to fix the submersible pump shell, the submersible pump shell can not be loosened, and the submersible pump shell can not be fixed in a submersible pump shell in a self-locking type hydraulic oil fixing assembly 4 fixing state; then, the polishing assembly is moved to a position to be polished by moving the lifting plate 56 and the first sliding block 58, the second motor 53 is started, the second motor 53 drives the fifth transmission rod 545 to rotate, the fifth transmission rod 545 drives the fifth cylindrical gear 541 to rotate, the fifth cylindrical gear 541 drives the sixth cylindrical gear 542, the sixth transmission rod 546, the seventh cylindrical gear 543 and the gear ring 544 to rotate, the fifth transmission rod 545 drives the first polishing block 551 to rotate, the gear ring 544 drives the second polishing block 552 to rotate, the shell of the submersible pump is polished, and after polishing is completed, the shell of the submersible pump is punched by moving the drilling device 6; after punching is completed, the first valve 7 is opened, the first motor 21 is controlled to rotate reversely, the first motor 21 drives the second unidirectional rotating assembly 26 and the second rotating fan 28 to rotate, the first transmission rod 24 drives the first rotating block 252 to rotate anticlockwise, the first pawl 253 cannot be meshed with the first internal ratchet wheel 251, the first rotating block 252 does not drive the first internal ratchet wheel 251 to rotate, the second rotating fan 28 presses hydraulic oil into the hydraulic tank 221 through the second connecting pipe 224 and the first connecting pipe 223 along with the anticlockwise rotation of the first motor 21, the outward-expanding fixing assembly 3 releases fixing of the shell of the submersible pump along with the anticlockwise rotation of the first motor 21, and after the first motor 21 is closed, the hydraulic oil flows into the hydraulic tank 221, the pressure in the hydraulic transmission bin 41 is reduced, and the polymeric fixing assembly 4 releases fixing of the shell of the submersible pump.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a drilling equipment is used in processing of immersible pump shell which characterized in that: the drilling device comprises a base (1), a first transmission assembly (2), an outward-expanding fixing assembly (3), a polymeric fixing assembly (4), a bidirectional centering polishing assembly (5) and a drilling device (6), wherein the first transmission assembly (2) is arranged on the base (1), the polymeric fixing assembly (4) is arranged on the base (1), the outward-expanding fixing assembly (3) is arranged on the polymeric fixing assembly (4), the bidirectional centering polishing assembly (5) is arranged on the base (1), and the drilling device (6) is arranged on the base (1); the first transmission assembly (2) comprises a first motor (21), a first transmission box (22), a valve assembly (23), a first transmission rod (24), a first unidirectional rotation assembly (25), a second unidirectional rotation assembly (26), a first rotation fan (27) and a second rotation fan (28), the first motor (21) is arranged on the base (1), the transmission box (22) is provided with a hydraulic box (221), a working box (222), a first connecting pipe (223) and a second connecting pipe (224), the transmission box (22) is arranged on the base (1), be equipped with cavity one (225), connecting hole one (226) and connecting hole two (227) on transmission case (22), cavity one (225) are located on transmission case (22) lateral wall, be equipped with dog one (228) on cavity one (225), the one end and the cavity one (225) of connecting hole one (226) link to each other, the one end and the cavity one (225) of connecting hole two (227) link to each other, be equipped with check valve one (229) in connecting hole two (227), valve member (23) are located in cavity one (225), hydraulic tank (221) are located in transmission case (22), be equipped with through hole one (2210) on hydraulic tank (221), the hydraulic lifting device comprises a balancing weight (8) and a moving plate (9), wherein a one-way valve II (2211) is arranged in a through hole I (2210), the moving plate (9) is movably arranged in a hydraulic tank (221), and the balancing weight (8) is arranged on the moving plate (9); the working box (222) is arranged in the transmission box (22), the other end of the first connecting hole (226) is connected with the working box (222), the working box (222) is arranged on the hydraulic box (221), the first connecting pipe (223) is L-shaped, one end of the first connecting pipe (223) penetrates through the side wall of the transmission box (22) and is connected with the hydraulic box (221), the first connecting pipe (223) is provided with a first valve (7), the second connecting pipe (224) is 21274; shaped, one end of the second connecting pipe (224) is arranged on the side wall of the transmission box (22) and is communicated with the other end of the second connecting hole (227), the other end of the first connecting pipe (223) is arranged on the second connecting pipe (224) and is communicated with the second connecting pipe (224), and the other end of the second connecting pipe (224) is arranged on the polymeric fixing component (4); the valve component (23) comprises a first moving block (231) and a first spring (232), one end of the first spring (232) is arranged on the first cavity (225), the first moving block (231) is arranged at the other end of the first spring (232), the first moving block (231) is movably arranged in the first cavity (225), one end of the first transmission rod (24) is arranged at the output end of the first motor (21), and the first unidirectional rotating component (25), the second unidirectional rotating component (26), the first rotating fan (27) and the second rotating fan (28) are arranged in the working box (222).

2. The drilling device for processing the submersible pump shell according to claim 1, characterized in that: the one-way rotating assembly I (25) is arranged on the transmission rod I (24), the one-way rotating assembly I (25) comprises an internal ratchet wheel I (251), a rotating block I (252) and a pawl I (253), the internal ratchet wheel I (251) is movably arranged on the transmission rod I (24), the rotating block I (252) is arranged on the transmission rod I (24), and a sliding groove I (254) and a spring II (255) are arranged on the rotating block I (252); the first pawl (253) is movably arranged in the first sliding groove (254), one end of the second spring (255) is arranged on the first sliding groove (254), and the other end of the second spring (255) is arranged at one end of the pawl; the second unidirectional rotating assembly (26) is arranged on the first transmission rod (24), the structure of the second unidirectional rotating assembly (26) is the same as that of the first unidirectional rotating assembly (25), and the structure of the second unidirectional rotating assembly (26) is in a mirror image relation with that of the first unidirectional rotating assembly (25); the first rotating fan (27) is arranged on the first inscribed ratchet wheel (251), the first rotating fan (27) and the second rotating fan (28) are arranged on the second unidirectional rotating assembly (26), and the structures of the first rotating fan (27) and the second rotating fan (28) are in mirror image relation.

3. The drilling device for processing the submersible pump shell according to claim 2, characterized in that: the polymeric fixing component (4) comprises a hydraulic transmission bin (41) and an outer fixing component (42), the hydraulic transmission bin (41) is in a circular ring shape, the hydraulic transmission bin (41) is arranged on the base (1), the other end of the second connecting pipe (224) is communicated with the hydraulic transmission bin (41), a support column (43) is arranged on the hydraulic transmission bin (41), the outer fixing component (42) comprises a first fixing rod (44), a second fixing rod (45), a connecting block (46), a connecting column (47), a first moving rod (48), a second moving rod (49), a third moving rod (410), a top block (411) and a fixing bolt (412), the first fixing rod (44) is arranged on the base (1), the second fixing rod (45) is arranged on the base (1), the first connecting block (46) is arranged on the first fixing rod (44), a fourth sliding groove (413) is arranged on the connecting block (46), the second connecting column (47) is arranged on the second fixing rod (45), one end of the first moving rod (48) is movably arranged on the hydraulic transmission bin (41), the second moving rod (49) is movably arranged on the connecting column (414), and the other end of the moving rod (414) is arranged on the moving rod (49), the one end activity of carriage release lever three (410) is located the other end that runs through groove (414), the other end of carriage release lever three (410) activity is located in sliding tray four (413), be equipped with protruding piece (415) on carriage release lever three (410), the other end of carriage release lever three (410) is located in kicking block (411) activity, be equipped with sliding groove (416) on kicking block (411), the setting of carriage release lever three (410) is run through in fixing bolt (412) activity, the one end activity of fixing bolt (412) is run through carriage release lever three (410) and sliding groove (416) movable contact.

4. The drilling device for processing the submersible pump shell according to claim 3, characterized in that: the outward-expanding type fixing component (3) comprises a supporting component (31), a second transmission component (32), a driving component (33) and an inner fixing component (34), the supporting component (31) is arranged on the supporting column (43), the second transmission component (32) is arranged on the hydraulic transmission bin (41), the driving component (33) is arranged on the supporting component (31), the internal fixing component (34) is arranged on the supporting component (31), the supporting component (31) comprises a supporting frame (311) and a supporting block (312), the supporting frame (311) is arranged on the supporting column (43), the supporting block (312) is arranged on the supporting frame (311), the supporting frame (311) is provided with a first groove (313), a second groove (314) and a sliding groove supporting rod (315), the first groove (313) is arranged on the support frame (311), the second groove (314) is arranged on the support frame (311), the sliding groove support rod (315) is arranged on the support frame (311), the sliding groove support rod (315) is T-shaped, a groove III (316) and a sliding groove III (317) are arranged on the sliding groove support rod (315), the third sliding groove (317) is communicated with the third groove (316), and the third groove (316) is communicated with the first groove (313).

5. The drilling device for processing the submersible pump shell according to claim 4, wherein the drilling device comprises: the second transmission assembly (32) comprises a second transmission rod (321), a first cylindrical gear (322), a second cylindrical gear (323), a first conical gear (324), a second conical gear (325) and a third transmission rod (326), one end of the second transmission rod (321) movably penetrates through the upper wall of the transmission box (22) through the hollow part of the annular hydraulic transmission bin (41) and is arranged on the second rotating fan (28), the first cylindrical gear (322) is arranged on the hydraulic transmission bin (41), the first cylindrical gear (322) is arranged at the other end of the second transmission rod (321), the second cylindrical gear (323) is arranged on the hydraulic transmission bin (41), the second cylindrical gear (323) is meshed with the first cylindrical gear (322), the first conical gear (324) is arranged on the second cylindrical gear (323), the third transmission rod (326) is movably arranged on the supporting block (312), the second conical gear (325) is arranged on the third transmission rod (326), and the second conical gear (325) is meshed with the first conical gear (324).

6. The drilling device for processing the shell of the submersible pump according to claim 5, wherein the drilling device comprises: drive assembly (33) includes worm (331), worm wheel (332), transfer line four (333), three (334) of cylindrical gear, four (335) of cylindrical gear and spur rack sliding block (336), worm (331) are located on transfer line three (326), support frame (311) is located in worm wheel (332), worm wheel (332) and worm (331) intermeshing, recess one (313) is located in the activity of three (334) of cylindrical gear, three (335) activities of cylindrical gear are located in recess three (316), four (335) of cylindrical gear and three (334) intermeshing of cylindrical gear, the upper wall setting of recess one (313) is run through in the activity of transfer line four (333), the one end of transfer line four (333) is located on worm wheel (332), the other end of transfer line four (333) is located on three (334) of cylindrical gear, spur rack sliding block (336) activity is located in three (317) of sliding tray, spur rack sliding block (336) and four (335) intermeshing of cylindrical gear.

7. The drilling device for processing the submersible pump shell according to claim 6, wherein the drilling device comprises: the internal fixation subassembly (34) includes sprocket (341), centering dead lever (342) and chain (343), the activity of sprocket (341) is located in recess two (314), the one end of centering dead lever (342) is located on sprocket (341), centering dead lever (342) is equipped with recess four (344), the one end of straight rack sliding block (336) is located to the one end of chain (343), the other end of chain (343) passes recess four (344) and locates the other end of straight rack sliding block (336), chain (343) and sprocket (341) intermeshing.

8. The drilling device for processing the submersible pump shell according to claim 7, characterized in that: the bidirectional centering grinding assembly (5) comprises a lifting frame (51), a grinding box (52), a motor II (53), a transmission assembly III (54) and a grinding device (55), the lifting frame (51) is arranged on the base (1), a lifting plate (56) and an electric sliding rail I (57) are arranged on the lifting frame (51), an electric sliding rail II (59), a sliding block I (58) and a sliding block II (510) are arranged on the lifting plate (56), the grinding box (52) is arranged on the sliding block I (58), the motor II (53) is arranged on the upper wall of the grinding box (52), the transmission assembly III (54) is arranged in the grinding box (52), the grinding device (55) is arranged under the lower wall of the grinding box (52), the transmission assembly III (54) comprises a cylindrical gear V (541), a cylindrical gear VI (542), a cylindrical gear VII (543), a gear ring (544), a transmission rod V (546) and a transmission rod VI (546), the transmission rod V (545) is movably arranged at the upper end and the lower end of the cylindrical gear (545) of the transmission rod II (545), the cylindrical gear seven (543) is arranged below the lower wall of the grinding box (52), the cylindrical gear seven (543) is meshed with the gear ring (544), the cylindrical gear six (542) is arranged on the lower wall of the grinding box (52), the cylindrical gear six (542) is meshed with the cylindrical gear five (541), the transmission rod six (546) movably penetrates through the lower wall of the grinding box (52), one end of the transmission rod six (546) is arranged on the cylindrical gear seven (543), and the other end of the transmission rod six (546) is arranged on the cylindrical gear six (542).

9. The drilling device for processing the submersible pump shell according to claim 8, characterized in that: the grinding device (55) comprises a first grinding block (551) and a second grinding block (552), wherein the first grinding block (551) is arranged below the lower wall of the grinding box (52), the first grinding block (551) is arranged at the other end of the five transmission rod (545), the first grinding block (551) is circular, the second grinding block (552) is arranged below the lower wall of the grinding box (52), the second grinding block (552) is arranged on the gear ring (544), the second grinding block (552) is annular, and the second grinding block (552) is movably arranged outside the first grinding block (551).

10. The drilling device for processing the submersible pump shell according to claim 9, characterized in that: and the drilling device (6) is arranged on the second sliding block, and the drilling device (6) is in the prior art.