CN114851024A

CN114851024A - Burnishing machine is used in filter production based on remove interconnection intelligence

Info

Publication number: CN114851024A
Application number: CN202210608021.6A
Authority: CN
Inventors: 张威; 马帅; 金凌同悦; 丁自强; 刘磊; 赵雷; 曾秀琴
Original assignee: Jiangsu Star Wave Optical Instrument Co ltd
Current assignee: Xinglang Optical Technology Jiangsu Co ltd
Priority date: 2022-05-31
Filing date: 2022-05-31
Publication date: 2022-08-05
Anticipated expiration: 2042-05-31
Also published as: CN114851024B

Abstract

The invention discloses a polishing machine for producing a filter based on mobile interconnection intelligence, which relates to the technical field of polishing machines, in particular to the technical field of polishing of filters, and comprises a workbench, a lifting frame, a driving assembly and a polishing dust removal detection body; on the basis of realizing the synchronous polishing, polishing dust removal and polishing degree detection functions, the dynamic filter polishing degree input is further realized, and the filter polishing degree is controlled, so that the polishing is more accurate, the equipment has more powerful functions and high intelligent degree, and the problems that the polishing function of the traditional polishing equipment is single, the synchronous polishing, polishing dust removal and polishing degree cannot be synchronously carried out, and the polishing degree cannot be intelligently controlled are solved.

Description

Polisher is used in filter production based on remove interconnection intelligence

Technical Field

The invention relates to the technical field of polishing machines, in particular to a polishing machine for producing a filter plate based on mobile interconnection intelligence.

Background

The polishing machine is an electric tool and consists of basic elements such as a base, a polishing disc, a polishing fabric, a polishing cover, a cover and the like, the key of the operation of the polishing machine is to try to obtain the maximum polishing rate so as to remove a damaged layer generated during polishing as soon as possible, and simultaneously, the polished damaged layer does not influence the finally observed tissue, namely, false tissue is not caused, the former requires a thicker abrasive material to ensure that the polished damaged layer is removed at a higher polishing rate, but the polished damaged layer is deeper; the latter requires the use of the finest materials, which results in a shallow polishing damage layer, but a low polishing rate;

during polishing of the polishing machine, dust and slag generated by polishing cannot be synchronously absorbed, the polishing effect cannot be detected in real time, the polishing degree cannot be judged, the polishing degree is usually judged by experience, and the polishing accuracy is low and the polishing effect is poor;

in view of the above technical drawbacks, a solution is proposed.

Disclosure of Invention

The invention aims to: by arranging the workbench, the lifting frame, the driving assembly and the polishing dust removal detection body, on the basis of realizing the functions of polishing, polishing synchronous dust removal and polishing degree synchronous detection, the dynamic input of the polishing degree of the filter is further realized, and the polishing degree of the filter is controlled, so that the polishing is more accurate, the equipment has more powerful functions and high intelligent degree, and the problems that the polishing function of the traditional polishing equipment is single, the polishing, polishing synchronous dust removal and polishing degree synchronous control cannot be realized, and the polishing degree is intelligently controlled are solved; by arranging the clamping assembly and by rotating the screw rod, the sliding rod, the abutting block, the locking block, the abutting sliding part, the locking protrusion, the return spring, the receiving ring sleeve and the receiving ring groove in a matched manner, the polishing strip and the polishing plate can be conveniently and detachably arranged, the durability of the equipment is enhanced, the polishing effect of the equipment is better, and meanwhile, the intelligent polishing degree is more accurate;

in order to achieve the purpose, the invention adopts the following technical scheme:

a polishing machine for producing a filter plate based on mobile interconnection intelligence is characterized in that a control panel is connected based on a network signal, and comprises a workbench, a lifting frame, a control panel and a base, wherein the base is fixedly arranged at four corners of the workbench, the lifting frame is fixedly arranged at the top end of the workbench, two lifting frames are symmetrically arranged, a driving assembly is arranged between the lifting frame assemblies in a sliding manner, a polishing and dust removing detection body is arranged on the driving assembly and comprises a T-shaped box body and a clamping ring shell, a dust outlet is formed in the side wall of the top of the T-shaped box body, a gas quality detector is fixedly arranged at the dust outlet and is in through connection with the T-shaped box body, the clamping ring shell is arranged in the T-shaped box body and is arranged at the center of the bottom of the T-shaped box body, and a polishing and adsorbing assembly for polishing the filter plate and synchronously adsorbing polishing dust residues of the filter plate is arranged in the T-shaped box body, the polishing adsorption component is rotationally connected with the clamping ring shell, a detection component used for detecting the information of the polishing quality condition of the filter plate is further mounted at the bottom end of the polishing adsorption component in an adaptive mode, and the polishing adsorption component is connected with a dust collection box through a pipeline in a through mode.

Further, the polishing adsorption component comprises a polishing strip, a polishing plate, a second servo motor, a rotating rod and an annular suction nozzle, the polishing strip is provided with a plurality of polishing strips, the polishing strip is installed at the bottom end of the polishing plate, the top of the polishing plate is arranged in the clamping ring shell and is rotationally connected with the clamping ring shell, the second servo motor is fixedly arranged at the top of the T-shaped box body, the rotating rod is rotationally arranged in the T-shaped box body, the outer end of the rotating rod is fixedly connected with a fixing sleeve, the outer end of the fixing sleeve is fixedly provided with a plurality of vertical arc flabellums which are distributed according to an annular array by taking the central point of the fixing sleeve as the circle center, the top end of the rotating rod is fixedly connected with the output shaft of the second servo motor, the outer wall of the bottom end of the rotating rod, which penetrates through the clamping ring shell, extends into the outer end of the rotating rod and is clamped with the central portion of the outer end of the polishing plate, the annular suction nozzle is fixedly arranged at the bottom end of the T-shaped box body, and the annular suction nozzle is sleeved on the polishing plate and is in clearance fit with the polishing plate, the inner wall of the annular suction nozzle is provided with a dust inlet, the detection assembly is installed at the bottom of the annular suction nozzle, and the annular suction nozzle is communicated with the T-shaped box body.

Furthermore, the fixed projection that is equipped with in throwing polished plate top central part, the outer end of projection is fixed and is equipped with a plurality of slip sand grips, the slip sand grip uses the center of projection to distribute according to annular array as the centre of a circle, slip sand grip and bull stick sliding connection, a plurality of spouts that the adaptation slip sand grip was inserted are seted up to the bull stick, spout and slip sand grip one-to-one.

Further, the detecting component comprises an induction elastic ring, an annular pressure sensor and an annular vibration sensor, the outer end of the annular pressure sensor is sleeved with the annular vibration sensor, the annular pressure sensor and the annular vibration sensor are fixedly arranged at the bottom of the annular suction nozzle, the induction elastic ring is fixedly arranged at the bottom end of the annular suction nozzle sleeve, and the top end of the induction elastic ring is abutted against the bottom ends of the annular pressure sensor and the annular vibration sensor.

Furthermore, the clamping ring shell is internally provided with at least three clamping assemblies which are used for clamping the polishing plate and can be disassembled, and the clamping assemblies are distributed in an annular array by taking the circle center of the clamping ring shell as the center.

Further, the block subassembly is including rotating screw rod, slide bar and locking piece, the locking piece slides and locates in the block ring shell, it is connected with the rotation of block ring shell to rotate the screw rod, the slide bar is fixed to be located in the block ring shell, and rotates screw rod and slide bar parallel arrangement, the outer end of slide bar slides and has cup jointed to the piece, support the piece screw thread and cup joint in the outer end of rotating the screw rod, and support the one end and the locking piece butt of piece, the both ends of locking piece are fixed respectively and are equipped with two return springs and a locking protrusion, the both sides of slide bar are located to the return spring symmetry and rather than perpendicular setting, and return spring's one end and block ring shell fixed connection, the locking protrusion and polished plate joint.

Furthermore, the top ring side of the polishing plate is fixedly provided with a bearing ring sleeve, and the bearing ring sleeve is provided with a bearing ring matched with the locking protrusion in a clamped manner.

Further, be equipped with synchronous hydro-cylinder, lift beam hanger and connecting block in the crane, synchronous hydro-cylinder is fixed to be located in the crane, lift beam hanger and synchronous hydro-cylinder's piston shaft fixed connection, the one end fixed mounting of connecting block is in the top of lift beam hanger, and the inner wall that connecting block one end slided through the crane extends to its outside and with drive assembly fixed connection.

Further, the drive assembly comprises a rectangular box body, a first servo motor, a screw rod and a nut seat, the two sides of the rectangular box body are fixedly connected with the opposite surfaces of the connecting blocks respectively, the first servo motor is fixedly arranged in the rectangular box body, the screw rod is rotatably arranged in the rectangular box body, one end of the screw rod is fixedly connected with an output shaft of the first servo motor, the nut seat is sleeved on the outer end of the screw rod and is in threaded connection with the outer end of the screw rod, and the bottom end of the nut seat penetrates through the inner wall of the rectangular box body, extends to the outside of the inner wall and is fixed at the top center of the T-shaped box body.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

(1) by arranging the workbench, the lifting frame, the driving assembly and the polishing dust removal detection body, on the basis of realizing the polishing, polishing synchronous dust removal and polishing degree synchronous detection functions, the dynamic input of the polishing degree of the filter is further realized, and the polishing degree of the filter is controlled, so that the polishing is more accurate, the equipment has more powerful functions and high intelligent degree, and the problems that the polishing function of the traditional polishing equipment is single, the polishing, polishing synchronous dust removal and polishing degree synchronous control cannot be realized, and the polishing degree is intelligently controlled are solved;

(2) according to the polishing device, the clamping assembly is arranged, and the screw rod, the sliding rod, the abutting block, the locking block, the abutting sliding part, the locking protrusion, the return spring, the receiving ring sleeve and the receiving ring groove are matched for use, so that the polishing strip and the polishing plate can be conveniently and detachably arranged, the durability of the polishing device is enhanced, the polishing effect of the polishing device is better, and meanwhile, the intelligent polishing degree is more accurate.

Drawings

Fig. 1 shows a front view of a device provided according to the invention;

FIG. 2 is a sectional view of a specimen to be tested for polishing dust removal provided according to the present invention;

FIG. 3 illustrates a cross-sectional view of a T-box provided in accordance with the present invention;

figure 4 illustrates a cross-sectional view of arcuate fan blades provided in accordance with the present invention;

FIG. 5 shows a partial enlarged view at C of FIG. 3;

FIG. 6 shows a partial enlarged view at A of FIG. 2;

FIG. 7 shows a partial enlarged view at B of FIG. 3;

FIG. 8 illustrates a cross-sectional view of the latch block and turning screw connection provided in accordance with the present invention;

illustration of the drawings: 1. a work table; 2. a lifting frame; 3. a drive assembly; 4. polishing and dedusting a detection body; 5. a dust collection box; 101. a control panel; 102. a base; 201. a synchronous oil cylinder; 202. lifting the oil rod; 203. connecting blocks; 301. a rectangular box body; 302. a first servo motor; 303. a screw rod; 304. a nut seat; 401. a T-shaped box body; 402. clamping the ring shell; 403. a dust outlet; 404. a gas quality detector; 405. polishing the adsorption component; 406. a detection component; 407. clamping the assembly; 4051. polishing the strip; 4052. polishing the plate; 4053. a convex column; 4054. sliding the convex strip; 4055. vertical and horizontal arc fan blades; 4056. fixing a sleeve; 4057. a second servo motor; 4058. a rotating rod; 4059. an annular suction nozzle; 4061. an induction elastic ring; 4062. an annular pressure sensor; 4063. an annular vibration sensor; 4071. rotating the screw; 4072. a slide bar; 4073. a resisting block; 4074. a locking block; 4075. an abutting sliding part; 4076. a locking protrusion; 4077. a return spring; 4078. a receiving ring sleeve; 4079. the bearing ring groove.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

as shown in figures 1-6, a polishing machine for producing a filter based on mobile interconnection intelligence is connected with a control panel 101 based on network signals, and comprises a workbench 1, lifting frames 2, the control panel 101 and a base 102, wherein the base 102 is fixedly arranged at four corners of the workbench 1, the lifting frames 2 are fixedly arranged at the top end of the workbench 1, two lifting frames 2 are symmetrically arranged, a driving assembly 3 is arranged between the lifting frames 2 in a sliding manner, a polishing dust removal detection body 4 is arranged on the driving assembly 3, the polishing dust removal detection body 4 comprises a T-shaped box body 401 and a clamping ring shell 402, a dust outlet 403 is arranged at the side wall of the top of the T-shaped box body 401, a gas quality detector 404 is fixedly arranged at the dust outlet 403, and the gas quality detector 404 is in through connection with the T-shaped box body 401,

the clamping ring shell 402 is arranged in the T-shaped box body 401, the clamping ring shell 402 is arranged at the center of the bottom of the T-shaped box body 401, the polishing adsorption component 405 is installed in the T-shaped box body 401, the polishing adsorption component 405 is used for polishing the filter and synchronously adsorbing polishing dust and slag of the filter, the polishing adsorption component 405 is connected with the dust collection box 5 in a penetrating manner through a pipeline, the dust collection box 5 is used for collecting the dust and slag generated during polishing, the gas quality detector 404 is used for detecting the quality of the polishing dust and slag, and when the polishing dust and slag throughput is accumulated to a certain degree, a worker is reminded to dump the dust and slag into the dust collection box 5;

the polishing adsorption component 405 is rotatably connected with the clamping ring shell 402, a detection component 406 is further mounted at the bottom end of the polishing adsorption component 405 in a matched mode, the detection component 406 is used for detecting the polishing quality condition information of the filter and sending the information to the control panel 101 to be displayed on a display screen of the control panel, and the polishing quality condition information of the filter is calculated to obtain the polishing distance value of the surface of the filter, wherein the polishing quality condition information of the filter is the polishing pressure value of the surface of the filter and the polishing vibration value of the surface of the filter;

a synchronous oil cylinder 201, a lifting oil rod 202 and a connecting block 203 are arranged in the lifting frame 2, the synchronous oil cylinder 201 is fixedly arranged in the lifting frame 2, the lifting oil rod 202 is fixedly connected with a piston shaft of the synchronous oil cylinder 201, one end of the connecting block 203 is fixedly arranged at the top end of the lifting oil rod 202, one end of the connecting block 203 penetrates through the inner wall of the lifting frame 2 in a sliding mode, extends to the outside of the lifting frame and is fixedly connected with a driving assembly 3, the synchronous oil cylinder 201 is started to work and controls the lifting of a piston rod or oil liquid of the synchronous oil cylinder, the piston rod of the synchronous oil cylinder 201 drives the lifting oil rod 202 fixed with the synchronous oil cylinder to lift, the lifting oil rod 202 drives the connecting block 203 fixed with the synchronous oil rod to lift after lifting, the driving assembly 3 fixed with the synchronous oil cylinder drives the driving assembly 3 to lift after lifting of the connecting block 203, and the polishing adsorption assembly 405 and the detection assembly 406 on the driving assembly are driven to lift after lifting assembly 3 lifts;

the driving assembly 3 comprises a rectangular box body 301, a first servo motor 302, a screw rod 303 and a nut seat 304, wherein two sides of the rectangular box body 301 are respectively and fixedly connected with opposite surfaces of the connecting blocks 203, the first servo motor 302 is fixedly arranged in the rectangular box body 301, the screw rod 303 is rotatably arranged in the rectangular box body 301, one end of the screw rod 303 is fixedly connected with an output shaft of the first servo motor 302, the nut seat 304 is sleeved at the outer end of the screw rod 303 and is in threaded connection with the outer end of the screw rod 303, and the bottom end of the nut seat 304 penetrates through the inner wall of the rectangular box body 301 to extend to the outside of the rectangular box body 301 and is fixed at the center part of the top end of the polishing adsorption assembly 405;

the first servo motor 302 is started to work and the output shaft of the first servo motor 302 is controlled to rotate, the output shaft of the first servo motor 302 rotates to drive the screw rod 303 fixed with the first servo motor to rotate, the screw rod 303 rotates to drive the nut seat 304 in threaded connection with the screw rod to horizontally move along the rectangular box body 301, the nut seat 304 horizontally moves to drive the polishing adsorption component 405 at the bottom end of the nut seat to horizontally move, the polishing adsorption component 405 horizontally moves to drive the detection component 406 thereon to horizontally move, and the rotation direction of the output shaft of the first servo motor 302 is controlled, so that the polishing adsorption component 405 and the detection component 406 horizontally reciprocate;

the polishing and adsorbing component 405 comprises a plurality of polishing strips 4051, a plurality of polishing plates 4052, a second servo motor 4057, a rotating rod 4058 and an annular suction nozzle 4059, the polishing strips 4051 are arranged at the bottom end of the polishing plates 4052, the top of the polishing plates 4052 is arranged in the clamping ring shell 402 and is rotatably connected with the clamping ring shell, the second servo motor 4057 is fixedly arranged at the top of the T-shaped box 401, the rotating rod 4058 is rotatably arranged in the T-shaped box 401, the outer end of the rotating rod 4058 is fixedly connected with a fixing sleeve 4056, the outer end of the fixing sleeve 4056 is fixedly provided with a plurality of vertical arc fan blades 4055, and the vertical arc fan blades 4055 are distributed in an annular array by taking the center point of the fixing sleeve 4056 as the circle center;

the top end of the rotating rod 4058 is fixedly connected with the output shaft of the second servo motor 4057, the bottom end of the rotating rod 4058 extends into the outer wall of the clamping ring shell 402 and is clamped with the top center of the polishing plate 4052, the center of the top end of the polishing plate 4052 is fixedly provided with a convex column 4053, the outer end of the convex column 4053 is fixedly provided with a plurality of sliding convex strips 4054, the sliding convex strips 4054 are distributed in an annular array by taking the center of the convex column 4053 as the center of circle, the sliding convex strips 4054 are slidably connected with the rotating rod 4058, the rotating rod 4058 is provided with a plurality of sliding chutes into which the sliding convex strips 4054 are inserted, the sliding chutes are in one-to-one correspondence with the sliding convex strips 4054, the annular suction nozzle 4059 is fixedly arranged at the bottom end of the T-shaped box 401, the annular suction nozzle 4059 is sleeved at the outer end of the polishing plate 4052 and is in clearance fit with the outer end of the polishing plate 4052, the inner wall of the annular suction nozzle 4059 is provided with a dust inlet, the rectangular detection assembly 406 is arranged at the bottom of the annular suction nozzle 4059, the annular suction nozzle 4059 is communicated with the T-shaped box 401, the annular suction nozzle 4059, the nut seat 304, the bottom end of the nut seat extends to the rectangular box 301 outside and is fixed at the top end of the T-shaped box 401, the rectangular box 401, and the rectangular suction nozzle extends to the rectangular suction nozzle, and the rectangular suction nozzle is fixed in the rectangular suction nozzle, and the rectangular suction nozzle, the rectangular suction nozzle 4059, the rectangular suction nozzle is arranged at the inner wall of the rectangular box 401, and the rectangular suction nozzle is arranged at the inner wall of the rectangular suction nozzle, and the rectangular suction nozzle 4059, and the rectangular nut seat extends to the rectangular box 301 extends to the rectangular box 401 A core part;

the detecting component 406 includes an induction elastic ring 4061, an annular pressure sensor 4062 and an annular vibration sensor 4063, the annular vibration sensor 4063 is sleeved on an outer end of the annular pressure sensor 4062, the annular pressure sensor 4062 and the annular vibration sensor 4063 are fixedly arranged at a bottom of the annular suction nozzle 4059, the induction elastic ring 4061 is fixedly arranged at a bottom end of the annular suction nozzle 4059, and a top end of the induction elastic ring 4061 abuts against bottom ends of the annular pressure sensor 4062 and the annular vibration sensor 4063;

the working steps are as follows:

the method comprises the following steps: placing the filter on a workbench 1 for fixing, starting a lifting frame 2 and a driving assembly 3 to enable the polishing and dedusting detection body 4 to descend, and enabling the polishing and dedusting detection body 4 to move rightwards to an end point until the polishing and dedusting detection body abuts against the surface of the filter;

step two: when the polishing strip 4051 of the dust-removing detection body 4 abuts against the filter plate, the lifting frame 2 is closed, the driving assembly 3 is controlled to make the dust-removing detection body 4 reciprocate, and the second servo motor 4057 of the polishing and adsorbing assembly 405 is started to work, the output shaft of the second servo motor 4057 rotates after working, the output shaft of the second servo motor 4057 drives the rotating rod 4058 fixed with the second servo motor to rotate, the rotating rod 4058 rotates to drive the convex column 4053 slidably clamped with the second servo motor to rotate, the convex column 4053 rotates to drive the polishing plate 4052 fixed with the second servo motor to rotate, the polishing plate 4052 rotates to drive the polishing strip 4051 fixed with the second servo motor to rotate, the surface of the filter plate is polished after the polishing strip 4051 rotates to generate dust slag, the rotating rod 4058 rotates to drive the fixing sleeve 4056 connected with the fixing sleeve 4056 to rotate, the fixing sleeve 4056 rotates to drive the arc-shaped fan blade 4055 fixed with the fixing sleeve to rotate, and the arc-shaped vortex 4055 rotates to generate suction force and generate negative pressure wind, the negative pressure suction force is transmitted to the annular suction nozzle 4059 through the T-shaped box body 401, the annular suction nozzle 4059 generates the negative pressure suction force and then synchronously adsorbs dust and slag generated during polishing, then the dust and slag are blown to the dust outlet 403 under the action of the vertical arc fan blades 4055, then the dust and slag enter the dust collection box 5 through the gas quality detector 404, and the dust collection box 5 collects the polished dust and slag;

step three: and the induction elastic ring 4061 always keeps the process that the drive assembly 3 controls the polishing and dust-removing detection body 4 to reciprocateThe butt is to the surface of filter, the dirt sediment on filter surface extrudees response elastic ring 4061, because response elastic ring 4061 is in dynamic state, consequently can produce the vibration, respond to elastic ring 4061 simultaneously and produce reverse action force extrusion annular pressure sensor 4062 and annular vibration sensor 4063 after being extruded, thereby make annular pressure sensor 4062 and annular vibration sensor 4063 sense the polishing pressure value M on filter surface and the polishing vibration value K on filter surface respectively, calculate through the formula

Obtaining a surface polishing distance value A of the filter plate, wherein e1, e2 and e3 are weight correction coefficients, e1 is larger than e2 and larger than e3, and e1+ e2+ e3 is 5.14; the weight correction coefficient enables the result of the simulation calculation to be closer to the true value;

the smaller the polishing distance value A on the surface of the filter plate is, the higher the polishing degree is, the better the polishing effect is, the polishing distance value A on the surface of the filter plate is compared with a preset value a, when A is larger than a, a dynamic polishing signal is generated, otherwise, a polishing completion signal is generated;

when a dynamic polishing signal is generated, the equipment is in the state of the second step, and the surface of the filter plate is continuously polished; when a polishing completion signal is generated, stopping polishing of the equipment, and displaying the character text of 'polishing completion' on a display screen terminal of the control panel 101, thereby completing accurate polishing; therefore, the preset value can be input, so that the polishing degree can be controlled, and the device also has the function of controlling the polishing degree;

by integrating the technical scheme, the polishing device further realizes dynamic filter polishing degree input and controls the filter polishing degree on the basis of realizing the functions of polishing, synchronous polishing dust removal and synchronous polishing degree detection by arranging the workbench 1, the lifting frame 2, the driving assembly 3 and the polishing dust removal detection body 4, so that the polishing is more accurate, the device has more powerful functions and high intelligent degree, and the problems that the polishing function of the traditional polishing device is single, the polishing, synchronous polishing dust removal and synchronous polishing degree can not be realized, and the polishing degree can not be intelligently controlled are solved.

Example 2:

the polishing machine for producing the filter based on the mobile interconnection intelligence is provided in the embodiment 1 of the invention, the intelligent polishing is realized, but the process has some defects, as the polishing strip 4051 directly and strongly rubs with the filter during polishing, the polishing strip 4051 is easy to damage and drop, and the accuracy of the intelligent polishing degree is reduced, therefore, the polishing plate 4052 provided with the polishing strip 4051 is detachable, and the polishing strip 4051 is convenient to replace;

as shown in fig. 1, 7 and 8, the clamping ring housing 402 is provided with at least three clamping components 407 for clamping the polishing plate 4052 and making it detachable, the clamping components 407 are distributed in an annular array with the center of the clamping ring housing 402 as the center, the clamping components 407 include a rotating screw 4071, a sliding rod 4072 and a locking block 4074, the locking block 4074 is slidably disposed in the clamping ring housing 402, the rotating screw 4071 is rotatably connected with the clamping ring housing 402, the sliding rod 4072 is fixedly disposed in the clamping ring housing 402, the rotating screw 4071 is disposed in parallel to the sliding rod 4072, the outer end of the sliding rod 4072 is slidably sleeved with a resisting block 4073, the resisting block 4073 is threadably sleeved on the outer end of the rotating screw 4071, one end of the resisting block 4073 is abutted against the locking block 4074, an abutting sliding portion 4075 of the resisting block 4073 is disposed at an abutting position where the locking block 4074 abuts against the resisting block 4073, and the abutting sliding portion 4075 is disposed in an angle with the abutting block 4073;

two return springs 4077 and a locking protrusion 4076 are respectively and fixedly arranged at two ends of the locking block 4074, the return springs 4077 are symmetrically arranged at two sides of the sliding rod 4072 and are perpendicular to the sliding rod 4072, one end of each return spring 4077 is fixedly connected with the clamping ring shell 402, the locking protrusion 4076 is clamped with the polishing plate 4052, a bearing ring sleeve 4078 is fixedly arranged at the ring side of the top end of the polishing plate 4052, and the bearing ring 4078 is provided with a bearing ring matched with the locking protrusion 4076 in a clamped manner;

the working principle is as follows: when the polishing plate 4052 needs to be disassembled and assembled, the rotating screw 4071 is poked forward to rotate during disassembly, the rotating screw 4071 rotates and then moves downwards with the abutting block 4073 in threaded connection, the abutting block 4073 moves downwards and then always abuts against the side wall of the locking block 4074, meanwhile, the locking block 4074 moves leftwards under the tensile force of the return spring 4077, after the locking block 4074 moves leftwards, the locking protrusion 4076 gradually comes out of the receiving ring groove 4079 of the receiving ring 4078 until the abutting block 4073 is positioned at the lowest end of the locking block 4074, the locking protrusion 4076 completely comes out of the receiving ring groove 4079 under the tensile force of the return spring 4077, so that the locking protrusion 4076 and the receiving ring 4078 are separated from the clamping state, then the polishing plate 4052 is pulled downwards, so that the polishing plate 4052 is taken out and replaced by a new polishing plate 4052, at this time, the convex column 4053 of the new polishing plate 4052 is inserted into the bottom of the rotating rod 4058, then the polishing plate 4052 is pressed, and the polishing plate 4078 is clamped to the top wall of the receiving ring housing 402, then reverse stirring is rotated the screw rod 4071 and is rotated, it is rotatory to make to support block 4073 upward movement, support block 4073 upward movement back butt to locking block 4074, make locking block 4074 move right, locking block 4074 moves right back drive rather than fixed locking protrusion 4076 moves right, locking protrusion 4076 moves right back embedding and accepts in the accepting annular 4079 of ring cover 4078, because block subassembly 407 is equipped with a plurality ofly, and the embedding accepts in the annular 4079 simultaneously, thereby accept in ring cover 4078 and fix polishing plate 4052, thereby make polishing plate 4052 can dismantle, thereby be convenient for change polishing strip 4051, make equipment more durable, reduce the off-the-shelf loss, make the effect of polishing better.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a burnishing machine is used in filter production based on remove interconnection intelligence, is based on network signal connection control panel (101), including workstation (1), crane (2), control panel (101) and base (102), four corners of workstation (1) are fixed to base (102), crane (2) are fixed to be located the top of workstation (1), and crane (2) symmetry is equipped with two, its characterized in that, it is equipped with drive assembly (3) to slide between crane (2) the subassembly, install polishing dust removal detection body (4) on drive assembly (3), polishing dust removal detection body (4) include T shape box (401) and block ring shell (402), dust outlet (403) have been seted up to the top lateral wall department of T shape box (401), gas quality detector (404) are located fixed mounting to dust outlet (403), gas quality detector (404) and T shape box (401) through connection, block ring shell (402) are located in T shape box (401), and center department that T shape box (401) bottom was located in block ring shell (402), install in T shape box (401) and be used for polishing the filter plate and adsorb polishing adsorption component (405) of its polishing dirt sediment in step, polishing adsorption component (405) rotate with block ring shell (402) and are connected, the bottom of polishing adsorption component (405) still the adaptation is installed and is used for detecting detection subassembly (406) of filter plate polishing quality situation information, and polishing adsorption component (405) through the pipeline through connection have dust collection box (5).

2. The polishing machine for manufacturing filters based on mobile interconnection intelligence as claimed in claim 1, wherein the polishing absorption assembly (405) comprises a plurality of polishing strips (4051), a polishing plate (4052), a second servo motor (4057), a rotating rod (4058) and a ring-shaped suction nozzle (4059), the polishing strips (4051) are installed at the bottom end of the polishing plate (4052), the top of the polishing plate (4052) is installed in the clamping ring housing (402) and is connected with the clamping ring housing in a rotating manner, the second servo motor (4057) is fixed at the top of the T-shaped housing (401), the rotating rod (4058) is rotatably installed in the T-shaped housing (401), the outer end of the rotating rod (4058) is fixedly connected with a fixing sleeve (4056), the fixing sleeve (4056) is fixedly provided with a plurality of arc-shaped fan blades (4055), the arc-shaped fan blades (4055) are distributed in a ring-shaped array with the center point of the fixing sleeve (4056), the top of bull stick (4058) and the output shaft fixed connection of second servo motor (4057), its bottom run through the outer wall of block ring shell (402) extend to in it and with polish the top central part joint of board (4052), the bottom of T shape box (401) is fixed to annular suction nozzle (4059), and annular suction nozzle (4059) cover locate polish the outer end of board (4052) and rather than clearance fit, the dust inlet has been seted up to the inner wall of annular suction nozzle (4059), determine module (406) are installed in the bottom of annular suction nozzle (4059), annular suction nozzle (4059) and T shape box (401) through connection.

3. The polishing machine for producing the filter plate based on the mobile interconnection intelligence of claim 2, wherein a convex pillar (4053) is fixedly arranged at the center of the top end of the polishing plate (4052), a plurality of sliding convex strips (4054) are fixedly arranged at the outer end of the convex pillar (4053), the sliding convex strips (4054) are distributed in an annular array by taking the center of the convex pillar (4053) as a circle center, the sliding convex strips (4054) are slidably connected with a rotating rod (4058), the rotating rod (4058) is provided with a plurality of sliding grooves into which the sliding convex strips (4054) are inserted, and the sliding grooves correspond to the sliding convex strips (4054) one to one.

4. The polishing machine for producing the filter plate based on the mobile interconnection intelligence of claim 2, wherein the detection assembly (406) comprises an induction elastic ring (4061), an annular pressure sensor (4062) and an annular vibration sensor (4063), the outer end of the annular pressure sensor (4062) is sleeved with the annular vibration sensor (4063), the annular pressure sensor (4062) and the annular vibration sensor (4063) are fixedly arranged at the bottom of the annular suction nozzle (4059), the induction elastic ring (4061) is fixedly arranged at the bottom end of the annular suction nozzle (4059) sleeve, and the top end of the induction elastic ring (4061) is abutted to the bottom ends of the annular pressure sensor (4062) and the annular vibration sensor (4063).

5. The polishing machine for producing the filter plate based on the mobile interconnection intelligence of claim 2, wherein at least three clamping components (407) are arranged in the clamping ring shell (402) and used for clamping the polishing plate (4052) and enabling the polishing plate to be detachable, and the clamping components (407) are distributed in an annular array by taking the circle center of the clamping ring shell (402) as the center.

6. The polishing machine for producing the filter plate based on the mobile interconnection intelligence as recited in claim 5, wherein the clamping component (407) comprises a rotating screw (4071), a sliding rod (4072) and a locking block (4074), the locking block (4074) is slidably disposed in the clamping ring shell (402), the rotating screw (4071) is rotatably connected with the clamping ring shell (402), the sliding rod (4072) is fixedly disposed in the clamping ring shell (402), the rotating screw (4071) is parallel to the sliding rod (4072), the outer end of the sliding rod (4072) is slidably sleeved with a resisting block (4073), the resisting block (4073) is threadedly sleeved on the outer end of the rotating screw (4071), one end of the resisting block (4073) is abutted against the locking block (4074), two ends of the locking block (4074) are respectively and fixedly provided with two return springs (4077) and one locking protrusion (4076), the return springs (4077) are symmetrically disposed on two sides of the rotating screw (4072) and are perpendicular to the sliding rod, and one end of the return spring (4077) is fixedly connected with the clamping ring shell (402), and the locking protrusion (4076) is clamped with the polishing plate (4052).

7. The polishing machine for producing the filter plate based on the mobile interconnection intelligence of claim 6, wherein a receiving ring (4078) is fixedly arranged on the top ring side of the polishing plate (4052), and the receiving ring (4078) is provided with a receiving ring which is adaptive to the clamping of the locking protrusion (4076).

8. The polishing machine is used in production of filter based on remove interconnected intelligence of claim 1, characterized in that, be equipped with synchronous hydro-cylinder (201), lift beam of oil (202) and connecting block (203) in crane (2), synchronous hydro-cylinder (201) are fixed to be located in crane (2), lift beam of oil (202) and the piston shaft fixed connection of synchronous hydro-cylinder (201), the one end fixed mounting of connecting block (203) is in the top of lift beam of oil (202), and the inner wall that connecting block (203) one end slides and runs through crane (2) extends to its outside and with drive assembly (3) fixed connection.

9. The polishing machine for producing the filter based on the mobile internet intelligence of claim 1, it is characterized in that the driving component (3) comprises a rectangular box body (301), a first servo motor (302), a screw rod (303) and a nut seat (304), two sides of the rectangular box body (301) are respectively fixedly connected with the opposite surfaces of the connecting blocks (203), the first servo motor (302) is fixedly arranged in the rectangular box body (301), the screw rod (303) is rotatably arranged in the rectangular box body (301), one end of the screw rod (303) is fixedly connected with an output shaft of the first servo motor (302), the nut seat (304) is sleeved at the outer end of the screw rod (303) and is in threaded connection with the screw rod, the bottom end of the nut seat (304) penetrates through the inner wall of the rectangular box body (301) to extend to the outside of the rectangular box body, and is fixed to the center of the top end of the T-shaped box body (401).