CN120421406B - Continuous processing device for advanced liquid chromatography components and operating method thereof - Google Patents

Abstract

The present invention relates to the technical field of liquid chromatographs, and in particular to a continuous processing device for advanced liquid chromatograph components and a working method thereof, which comprises a collecting box, a blanking assembly, a grinding assembly, a unloading assembly and a turntable, wherein at least one group of blanking dies is eccentrically arranged on the inner side of the turntable, and the turntable drives the blanking dies to rotate sequentially and cyclically between the blanking assembly, the grinding assembly and the unloading assembly; the blanking assembly comprises a cylinder assembly and a blanking punch, and when the blanking punch corresponds to the blanking die, the cylinder assembly drives the blanking punch to punch out a sieve plate body from a strip plate, and the sieve plate body falls into the blanking die, and a limiting assembly is arranged in the blanking die to support and limit the sieve plate body, the grinding assembly grinds burrs on the sieve plate body, and the unloading assembly pushes the sieve plate body out of the blanking die and drops it into the collecting box. The present invention realizes the automatic chamfering function conveniently and efficiently.

Description

Continuous processing device for high-grade liquid chromatograph assembly and working method thereof

Technical Field

The invention relates to the technical field of liquid chromatograph, in particular to a continuous processing device for an advanced liquid chromatograph component and a working method thereof.

Background

In the use of high-performance liquid chromatography, small particles falling down along with the abrasion of the plunger seal can enter the sample injection valve along the pipeline to cause damage to the injection valve and further cause pollution to the chromatographic column. Therefore, the liquid chromatography on-line filter is arranged between the outlet of the pump and the sample injection valve, adopts a filter cup type structure, has large liquid receiving area and long service life, can effectively prevent particles from entering the system, and can ensure enough liquid flow. The sieve plate in the online filter plays a great role in intercepting impurities in the mobile phase and protecting a liquid phase system.

In the production process of the stainless steel screen plate, continuous blanking production is usually required to be performed by using blanking equipment, for example, a manufacturing and processing technology of the stainless steel screen plate is disclosed in the prior patent publication No. CN112475004A, and the manufacturing and processing technology comprises a bottom plate, blanking devices, clamping devices, lifting devices and cleaning modules, wherein the blanking devices are fixedly installed on the bottom plate, the lifting devices are symmetrically arranged on two sides of the blanking devices, and the clamping devices are arranged on the blanking devices.

In the above technical scheme, fix the blanking mould through clamping device, carry out intermittent type nature motion through elevating gear control blanking mould, treat the stainless steel sieve of blanking to punch a hole through blanking device control blanking head simultaneously, however the outside edge of sieve after the blanking production all inevitably has the burr deckle edge, can greatly influence follow-up normal use, needs further the process of polishing to handle.

Therefore, it is necessary to provide a continuous processing apparatus for an advanced liquid chromatograph assembly and a working method thereof, which can achieve an automatic chamfering function.

Disclosure of Invention

The invention aims to provide a continuous processing device for an advanced liquid chromatograph component and a working method thereof, so as to solve the problems in the background art.

In order to solve the technical problems, the invention provides a technical scheme that the continuous processing device for the high-grade liquid chromatograph component and the working method thereof comprise a collecting box, a blanking component, a polishing component, a discharging component and a transferring table,

At least one group of blanking concave dies is eccentrically arranged on the inner side of the transfer table, and the transfer table drives the blanking concave dies to sequentially and circularly rotate among the blanking assembly, the polishing assembly and the unloading assembly;

the blanking assembly comprises a cylinder assembly and a blanking male die, when the blanking male die corresponds to the blanking female die, the cylinder assembly drives the blanking male die to punch the strip-shaped plate to form a screen plate body, the screen plate body falls into the blanking female die, a limiting assembly is arranged in the blanking female die and supports and limits the screen plate body, the polishing assembly polishes burrs of the screen plate body, and the discharging assembly pushes the screen plate body out of the blanking female die and falls into the collecting box.

In one embodiment, the upside of transfer platform is provided with the supporting roof, the lower extreme fixedly connected with support column of supporting roof, the lower extreme fixedly connected with bottom plate of support column, the middle-end fixedly connected with brace table of support column, transfer platform swivelling joint is in the middle side of brace table, the both ends of brace table set up loading area and feeding belt, the loading area is used for conveying strip panel to the brace table.

In one embodiment, the blanking die is including a die section of thick bamboo, the die section of thick bamboo runs through in transfer platform and rather than fixed connection, die section of thick bamboo internal diameter and blanking punch looks adaptation, stop assembly is including a plurality of stop gear and a plurality of lower stop gear that go up, go up stop gear and including the arc polishing piece, the inboard of arc polishing piece is provided with down arc inclined plane, arc inclined plane and the outward flange looks adaptation of sieve body, arc polishing piece extends to die section of thick bamboo inboard under initial condition, die section of thick bamboo runs through and has seted up a plurality of square holes, the outside of square hole is provided with detachable apron, fixed abrasive piece of fixedly connected with in the square hole, the inclined plane with arc polishing piece looks adaptation has been seted up to one side of fixed abrasive piece, the inboard of fixed abrasive piece is provided with the cambered surface the same with die section of thick bamboo internal diameter, a plurality of upper stop gear and lower stop gear set up the opposite and be the annular and staggered arrangement down, upper stop gear and lower stop gear restrict the sieve body in the middle of the two.

In one embodiment, the polishing assembly comprises an electric telescopic rod one and a lifting rotary disk, the lower end of the electric telescopic rod one is rotationally connected with a pressing disk, the electric telescopic rod one is arranged at the lower end of the supporting top plate, the lifting rotary disk is arranged at the upper side of the bottom plate and correspondingly arranged below the pressing disk, and the pressing disk and the lifting rotary disk relatively displace to clamp the screen plate body and rotate the screen plate body.

In one embodiment, a pair of trapezoidal sliding grooves are formed in the upper end of the square through hole, trapezoidal sliding blocks are slidably matched with the inner sides of the trapezoidal sliding grooves, a first spring telescopic rod is arranged at one end of each trapezoidal sliding block and connected with the cover plate, a second spring telescopic rod is arranged at the lower end of each trapezoidal sliding block and connected with the arc-shaped polishing block.

In one embodiment, the upper end fixedly connected with center post of bottom plate, center post runs through in the transfer platform and rotates with it to be connected, the inboard fixedly connected with motor spare of center post, the upside drive of electric machine part has gear one, one side meshing of gear one is connected with the ring gear, ring gear and transfer platform fixed connection, the outside of center post is seted up and is supplied the annular groove that the ring gear rotated.

In one embodiment, the upper end of the center column is provided with a pair of driving wheels, the lower end of the supporting top plate is fixedly connected with a connecting column, the lower end of the connecting column is fixedly connected with a pair of pressing wheels, the pressing wheels press the strip-shaped plates on the driving wheels, and the driving wheels are used for driving the strip-shaped plates to intermittently feed.

In one embodiment, the lower extreme fixedly connected with bevel gear one of gear one, one side meshing of bevel gear one is connected with bevel gear two, one end fixedly connected with gear two of bevel gear two, the upside meshing of gear two is connected with gear three, the mid-side of gear three runs through and fixedly connected with bull stick, the bull stick runs through in a pair of drive wheel and rather than fixedly connected with.

In one embodiment, the polishing assembly further comprises a base, a cylinder part is arranged on the inner side of the base, a torsion bar is rotationally connected with the driving end of the cylinder part, straight key grooves are formed in two ends of the torsion bar, a driving key is slidingly matched in the straight key grooves, a gear IV is fixedly connected with the outer end of the driving key, a gear V is connected with one side of the gear IV in a meshed mode, the gear V is driven to rotate by a motor assembly, and the torsion bar is fixedly connected with the lifting rotating disc.

Compared with the prior art, the automatic punching machine has the beneficial effects that the strip-shaped plate to be punched is transported to the upper side of the transfer table through the feeding belt, the punching male die is driven to descend through the cylinder assembly and matched with the punching female die to punch the strip-shaped plate, the punching male die punches out the screen plate body and presses the screen plate body into the punching female die, the limiting assembly on the inner side of the punching female die supports and limits the screen plate body and drives the screen plate body to move to the position of the polishing assembly through the rotation of the transfer table, and then the polishing assembly polishes the outer edge of the screen plate body, so that burrs are removed, the surface quality of a product is ensured;

The three groups of blanking dies are arranged and correspond to the blanking male die, the polishing assembly and the discharging assembly respectively, so that the blanking male die performs blanking work, and meanwhile, the polishing assembly and the discharging assembly perform polishing and discharging work on the screen body, so that the working efficiency is further improved, and the intermittent rotation of the transfer table is matched, so that continuous production and processing operation is realized.

Drawings

The technical solution and other advantageous effects of the present application will be made apparent by the following detailed description of the specific embodiments of the present application with reference to the accompanying drawings.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic front cross-sectional view of the present invention;

FIG. 3 is a schematic side cross-sectional view of the present invention;

FIG. 4 is an enlarged partial schematic view of area A of FIG. 2;

FIG. 5 is a schematic view in partial cutaway of a female die barrel of the present invention;

FIG. 6 is a schematic cross-sectional view of a center post of the present invention;

FIG. 7 is a partially enlarged schematic illustration of region B of FIG. 6;

FIG. 8 is a schematic perspective view of a connector column of the present invention;

FIG. 9 is a schematic perspective partial cut-away view of a center post of the present invention;

1, a supporting table, 101, a female die cylinder, 102, an arc grinding block, 103, a cover plate, 104, a fixed grinding block, 105, a trapezoidal sliding block, 106, a first spring telescopic rod, 107, a first electric telescopic rod, 108, a pressing disc, 109, a lifting rotary disc, 110, a base, 111, a cylinder piece, 112, a torsion bar, 113, a driving key, 114 and a fourth gear;

2. a middle rotary table, 201, a central column, 202, a motor part, 203, a first gear, 204, an inner gear ring, 205, a first bevel gear, 206, a second bevel gear, 207, a second gear, 208, a third gear, 209 and a driving wheel;

4. 401, pressing wheel;

5. A collection box; 501, a stripper plate, 502, an electric telescopic rod II;

6. 601, strip plate;

7. feeding belt 701, feeding belt;

8. Support top plate 801, support column 802, bottom plate;

9. and 901, punching a male die.

Detailed Description

The following disclosure provides many different embodiments, or examples, for implementing different features of the application. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the application. Furthermore, the present application may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present application provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.

Referring to fig. 1-9, the invention provides a technical proposal that a continuous processing device for an advanced liquid chromatograph component and a working method thereof, which comprises a collecting box 5, a blanking component, a polishing component, a discharging component and a transfer table 2,

At least one group of blanking concave dies is eccentrically arranged on the inner side of the transfer table 2, and the transfer table 2 drives the blanking concave dies to sequentially and circularly rotate among the blanking assembly, the polishing assembly and the unloading assembly;

The blanking assembly comprises a cylinder assembly 9 and a blanking male die 901, when the blanking male die 901 corresponds to the blanking female die, the cylinder assembly 9 drives the blanking male die 901 to blank the strip-shaped plate 601 out of the screen plate body 6, the screen plate body 6 falls into the blanking female die, a limiting assembly is arranged in the blanking female die and supports and limits the screen plate body 6, the polishing assembly polishes burrs of the screen plate body 6, and the discharging assembly pushes the screen plate body 6 out of the blanking female die and falls into the collecting box 5.

The upside of transfer table 2 is provided with supporting roof 8, and supporting roof 8's lower extreme fixedly connected with support column 801, the lower extreme fixedly connected with bottom plate 802 of support column 801, the middle-end fixedly connected with supporting bench 1 of support column 801, transfer table 2 swivelling joint in the mid-side of supporting bench 1, and the both ends of supporting bench 1 set up loading area 7 and pay-off area 701, and loading area 7 is used for transmitting strip panel 601 to on the supporting bench 1.

Firstly, conveying a strip-shaped plate 601 to be blanked to the upper side of a transfer table 2 through a feeding belt 7, driving the blanking male die 901 to descend through a cylinder assembly 9 when the blanking male die 901 corresponds to the blanking female die in position, blanking the strip-shaped plate 601 by matching with the blanking female die, blanking a screen plate body 6 by the blanking male die 901 and pressing the screen plate body into the blanking female die, supporting and limiting the screen plate body 6 through a limiting assembly on the inner side of the blanking female die, driving the screen plate body 6 to move to a polishing assembly position through rotation of the transfer table 2, simultaneously, continuously conveying the strip-shaped plate 601 by the feeding belt 7 to the lower side of the blanking male die 901 so as to facilitate the next blanking, polishing the outer edge of the screen plate body 6 through a polishing assembly so as to remove burrs, ensuring the surface quality of products, and then driving the polished screen plate body 6 to move to a discharging assembly position through the transfer table 2, discharging the screen plate body 6 to a collecting box 5, thus completing continuous polishing integrated work of the screen plate body 6, greatly improving the efficiency and having high automation degree;

Preferably, three groups of blanking dies are arranged and correspond to the blanking male die 901, the polishing assembly and the unloading assembly respectively, so that the blanking male die 901 performs blanking work, and meanwhile, the polishing assembly and the unloading assembly perform polishing and unloading work on the screen plate body 6, so that the working efficiency is further improved, and the intermittent rotation of the turntable 2 is matched, so that continuous production and processing work is realized.

The blanking die is including die section of thick bamboo 101, die section of thick bamboo 101 runs through in transfer table 2 and rather than fixed connection, die section of thick bamboo 101 internal diameter and blanking punch 901 looks adaptation, stop subassembly is including a plurality of stop gear and a plurality of lower stop gear, go up stop gear and including arc polishing piece 102, the inboard of arc polishing piece 102 is provided with down arc inclined plane, arc inclined plane and the outward flange looks adaptation of sieve body 6, arc polishing piece 102 extends to die section of thick bamboo 101 inboard under initial condition, die section of thick bamboo 101 runs through and has seted up a plurality of square holes, the outside of square holes is provided with detachable apron 103, fixed grinding piece 104 is fixedly connected with in the square holes, the inclined plane with arc polishing piece 102 looks adaptation has been seted up to one side of fixed grinding piece 104, the inboard of fixed grinding piece 104 is provided with the cambered surface the same with die section of thick bamboo 101 internal diameter, a plurality of upper stop gear and lower stop gear's setting up and down opposite and be the crisscross setting of annular, upper stop gear and lower stop gear restrict sieve body 6 in the centre of two.

Preferably, the limiting assembly is provided with a plurality of upper limiting mechanisms and a plurality of lower limiting mechanisms, specifically, in an initial state, the arc-shaped grinding blocks 102 extend to the inner side of the female die barrel 101, and the arc-shaped grinding blocks 102 which are oppositely arranged up and down limit the screen plate body 6 in the middle (as shown in fig. 4);

Specifically, when the punching male die 901 performs punching, the punched screen plate body 6 is pressed into the female die barrel 101, at this time, the screen plate body 6 is in contact with the upper arc grinding block 102 and is pressed down, the arc grinding block 102 moves along the inclined plane of the fixed grinding block 104, so that the arc grinding block 102 moves into Fang Tongkong, the screen plate body 6 falls onto the arc inclined plane of the lower arc grinding block 102, then the punching male die 901 rises and resets, so that the upper arc grinding block 102 also extends into the female die barrel 101 again, so that the screen plate body 6 is limited in the middle by the upper arc grinding block 102 and the lower arc grinding block 102, the right angle of the outer edge is in contact with the arc inclined plane, and the outer edge end face is in contact with the inner arc surface of the fixed grinding block 104.

The polishing assembly comprises an electric telescopic rod one 107 and a lifting rotary disk 109, wherein the lower end of the electric telescopic rod one 107 is rotationally connected with a pressing disk 108, the electric telescopic rod one 107 is arranged at the lower end of the supporting top plate 8, the lifting rotary disk 109 is arranged at the upper side of the bottom plate 802 and correspondingly arranged below the pressing disk 108, and the pressing disk 108 and the lifting rotary disk 109 relatively displace to clamp and rotate the screen plate body 6.

Preferably, the polishing surface of the arc polishing block 102 is an arc inclined surface, the polishing surface of the fixed polishing block 104 is an inner arc surface, the upper right-angle end and the lower right-angle end of the outer edge of the screen plate body 6 are all contacted with the arc inclined surface of the arc polishing block 102, the outer edge end surface is contacted with the inner arc surface of the fixed polishing block 104, the blanked edge of the screen plate body 6 is contacted with the polishing surface, when polishing work is needed, the pressing plate 108 is pushed to descend by the first electric telescopic rod 107, the lifting rotary disk 109 is lifted, the screen plate body 6 in the female die cylinder 101 is clamped in the middle, then the lifting rotary disk 109 is rotated, the screen plate body 6 is driven to rotate, continuous polishing is carried out between the screen plate body 6 and the static polishing surface, and burrs are removed, so that the surface quality of a product can be ensured.

A pair of trapezoidal sliding grooves are formed in the upper end of the square through hole, a trapezoidal sliding block 105 is slidably matched with the inner side of the trapezoidal sliding groove, a first spring telescopic rod 106 is arranged at one end of the trapezoidal sliding block 105, the first spring telescopic rod 106 is connected with the cover plate 103, a spring shrinkage rod is arranged at the lower end of the trapezoidal sliding block 105, and the spring shrinkage rod is connected with the arc-shaped grinding block 102.

Preferably, a first spring telescopic rod 106 and a trapezoidal sliding block 105 are arranged for guiding, a spring telescopic rod is arranged between the trapezoidal sliding block 105 and the arc-shaped polishing block 102, so that the arc-shaped polishing block 102 is in contact with the trapezoidal sliding block 105 in an initial state, specifically, when the sieve plate body 6 is blanked into the die cylinder 101, the sieve plate body 6 is pressed at the upper end of the upper arc-shaped polishing block 102, the arc-shaped polishing block 102 moves downwards in a straight line under the guiding action of the spring telescopic rod, the arc-shaped polishing block 102 moves along the inclined plane of the fixed polishing block 104, and accordingly the trapezoidal sliding block 105 moves horizontally and guides in the square through hole, and therefore the stability of the whole inclined displacement of the arc-shaped polishing block 102 is ensured;

The unloading assembly comprises an unloading plate 501, an electric telescopic rod II 502 is arranged at the upper end of the unloading plate 501, and a collecting box 5 is arranged at the upper end of the bottom plate 802 and corresponds to the unloading plate 501 in position.

When needs are unloaded, promote stripper 501 through electric telescopic handle two 502 and descend, stripper 501 promotes sieve plate body 6 downward displacement, sieve plate body 6 slides along the arc inclined plane of downside arc sanding block 102 to push back Fang Tongkong with arc sanding block 102 in, can make sieve plate body 6 unload to collecting box 5 in, accomplish the unloading, that is to say, through the setting of arc sanding block 102 and fixed sanding block 104, make sieve plate body 6 under the effect of thrust, homoenergetic be through the restriction of front or reverse side arc sanding block 102, degree of automation is high, the practicality is strong.

The upper end of the bottom plate 802 is fixedly connected with the center column 201, the center column 201 penetrates through the transfer table 2 and is rotationally connected with the transfer table 2, the inner side of the center column 201 is fixedly connected with the motor part 202, a first gear 203 is driven on the upper side of the motor part 202, one side of the first gear 203 is connected with an inner gear ring 204 in a meshed mode, the inner gear ring 204 is fixedly connected with the transfer table 2, and an annular groove for the inner gear ring 204 to rotate is formed in the outer side of the center column 201.

Preferably, when the intermediate rotary table 2 needs to be driven to rotate intermittently, the first gear 203 is driven to rotate by the electric machine 202, and the first gear 203 is meshed with the inner gear ring 204, so that the inner gear ring 204 and the intermediate rotary table 2 can be driven to rotate.

The upper end of center post 201 is provided with a pair of drive wheel 209, and the lower extreme fixedly connected with spliced pole 4 of supporting roof 8, the lower extreme fixedly connected with of spliced pole 4 presses the wheel 401 to press down the strip panel 601 on drive wheel 209, and drive wheel 209 is used for driving strip panel 601 intermittent type to feed.

Preferably, the strip-shaped plate 601 is driven to feed by the rotation of the driving wheel 209, and in order to improve the stability of feeding, a pair of pressing wheels 401 are provided corresponding to the driving wheel 209 so that the strip-shaped plate 601 is pressed against the driving wheel 209, and the two are kept closely attached, thereby ensuring the accuracy and stability of feeding.

The lower extreme fixedly connected with bevel gear one 205 of gear one 203, one side meshing of bevel gear one 205 is connected with bevel gear two 206, and one end fixedly connected with gear two 207 of bevel gear two 206, the upside meshing of gear two 207 is connected with gear three 208, and the middle side of gear three 208 runs through and fixedly connected with bull stick, and the bull stick runs through and is fixedly connected with a pair of drive wheel 209.

Preferably, the motor member 202 drives the first gear 203 to rotate and simultaneously drives the first bevel gear 205 to rotate, the second bevel gear 206 and the second gear 207 are driven to rotate through meshed connection, the second gear 207 drives the third gear 208 and the rotating rod to rotate, and then the pair of driving wheels 209 can be driven to rotate to drive the strip-shaped plate 601 to feed, that is, when the middle rotary table 2 drives the die cylinder 101 to rotate to switch the stations, the strip-shaped plate 601 is synchronously driven to feed, the synchronism of the two is good, the automation degree is high, the strip-shaped plate 601 is automatically fed when the empty die cylinder 101 is displaced to the lower side of the blanking punch 901 each time, and the blanking punch 901 can directly start blanking work, so that the efficiency is improved.

The polishing assembly further comprises a base 110, an air cylinder piece 111 is arranged on the inner side of the base 110, a torsion bar 112 is rotatably connected to the driving end of the air cylinder piece 111, straight key grooves are formed in two ends of the torsion bar 112, a driving key 113 is slidably matched in the straight key grooves, a gear IV 114 is fixedly connected to the outer end of the driving key 113, a gear V is connected to one side of the gear IV 114 in a meshed mode, the gear V is driven to rotate by the motor assembly, and the torsion bar 112 is fixedly connected with the lifting rotary disc 109.

Preferably, when the lifting rotary disk 109 needs to be driven to lift and rotate, the gear five is driven to rotate by the motor assembly, the gear four 114 is driven to rotate, the torsion bar 112 is driven to rotate by the torque transmitted by the driving key 113, the lifting rotary disk 109 can be driven to rotate, the torsion bar 112 is driven to displace by the cylinder piece 111, the lifting rotary disk 109 can be driven to lift, and the driving key 113 slides in the straight key groove, so that the normal rotation of the lifting rotary disk 109 is not influenced.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, or communicable with each other, directly connected, or in communication between two elements, or in an interaction relationship between two elements. The meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

The continuous processing device for an advanced liquid chromatograph component and the working method thereof provided by the embodiment of the application are described in detail, specific examples are applied to illustrate the principle and implementation of the application, the description of the above examples is only used for helping to understand the technical scheme and the core idea of the application, and a person of ordinary skill in the art should understand that the technical scheme described in the foregoing embodiments can be modified or some technical features of the technical scheme can be equivalently replaced, and the modification or replacement does not make the essence of the corresponding technical scheme deviate from the scope of the technical scheme of the embodiments of the application.

Claims (7)

1. A continuous processingequipment for high-level liquid chromatograph subassembly, including collecting box (5), blanking subassembly, polishing subassembly, unloading subassembly and transfer platform (2), its characterized in that:

at least one group of blanking concave dies is eccentrically arranged on the inner side of the transfer table (2), and the transfer table (2) drives the blanking concave dies to sequentially and circularly rotate among the blanking assembly, the polishing assembly and the unloading assembly;

the blanking assembly comprises an air cylinder assembly (9) and a blanking male die (901), when the blanking male die (901) corresponds to the blanking female die, the air cylinder assembly (9) drives the blanking male die (901) to blank the strip-shaped plate (601) out of the screen plate body (6), the screen plate body (6) falls into the blanking female die, a limiting assembly is arranged in the blanking female die and supports and limits the screen plate body (6), the polishing assembly polishes burrs of the screen plate body (6), and the discharging assembly pushes the screen plate body (6) out of the blanking female die and falls into the collecting box (5);

The blanking die comprises a die cylinder (101), the die cylinder (101) penetrates through the transfer table (2) and is fixedly connected with the die cylinder, the inner diameter of the die cylinder (101) is matched with the blanking die (901), the limiting component comprises a plurality of upper limiting mechanisms and a plurality of lower limiting mechanisms, the upper limiting mechanisms comprise arc-shaped grinding blocks (102), the inner sides of the arc-shaped grinding blocks (102) are provided with downward arc-shaped inclined planes, the arc-shaped inclined planes are matched with the outer edges of the screen plate bodies (6), the arc-shaped grinding blocks (102) extend to the inner sides of the die cylinder (101) in an initial state, the die cylinder (101) is penetrated and provided with a plurality of square through holes, the outer sides of the square through holes are provided with detachable cover plates (103), the square through holes are fixedly connected with fixed grinding blocks (104), one sides of the fixed grinding blocks (104) are provided with inclined planes matched with the arc-shaped grinding blocks (102), the inner sides of the fixed grinding blocks (104) are provided with cambered surfaces which are the same as the inner diameters of the die cylinder (101), and the upper limiting mechanisms and the lower limiting mechanisms are arranged in opposite directions, and the annular limiting mechanisms are arranged on the upper limiting mechanisms and the lower limiting mechanisms and the upper limiting mechanisms and the lower limiting mechanisms are arranged on the screen plate bodies in the opposite directions;

The polishing assembly comprises an electric telescopic rod I (107) and a lifting rotary disk (109), wherein the lower end of the electric telescopic rod I (107) is rotationally connected with a pressing disk (108), the electric telescopic rod I (107) is arranged at the lower end of the supporting top plate (8), the lifting rotary disk (109) is arranged at the upper side of the bottom plate (802) and correspondingly arranged below the pressing disk (108), and the pressing disk (108) and the lifting rotary disk (109) relatively displace to clamp and rotate the sieve plate body (6);

the upper end of square through-hole has seted up a pair of trapezoidal spout, the inboard sliding fit of trapezoidal spout has trapezoidal slider (105), the one end of trapezoidal slider (105) is provided with first spring telescopic link (106), first spring telescopic link (106) are connected with apron (103), the lower extreme of trapezoidal slider (105) is provided with the spring shrink pole, the spring shrink pole is connected with arc polishing piece (102).

2. The continuous processing device for an advanced liquid chromatograph assembly according to claim 1, wherein a supporting top plate (8) is arranged on the upper side of the transfer table (2), a supporting column (801) is fixedly connected to the lower end of the supporting top plate (8), a bottom plate (802) is fixedly connected to the lower end of the supporting column (801), a supporting table (1) is fixedly connected to the middle end of the supporting column (801), the transfer table (2) is rotatably connected to the middle side of the supporting table (1), a feeding belt (7) and a feeding belt (701) are arranged at the two ends of the supporting table (1), and the feeding belt (7) is used for conveying a strip-shaped plate (601) to the supporting table (1).

3. The continuous processing device for an advanced liquid chromatograph assembly according to claim 2, wherein the upper end of the bottom plate (802) is fixedly connected with a central column (201), the central column (201) penetrates through the transfer table (2) and is rotationally connected with the transfer table, a motor part (202) is fixedly connected to the inner side of the central column (201), a gear I (203) is driven on the upper side of the motor part (202), an inner gear ring (204) is connected to one side of the gear I (203) in a meshed mode, the inner gear ring (204) is fixedly connected with the transfer table (2), and a ring groove for enabling the inner gear ring (204) to rotate is formed in the outer side of the central column (201).

4. The continuous processing device for an advanced liquid chromatograph assembly according to claim 3, wherein a pair of driving wheels (209) are arranged at the upper end of the center column (201), a connecting column (4) is fixedly connected to the lower end of the supporting top plate (8), a pair of pressing wheels (401) are fixedly connected to the lower end of the connecting column (4), the pressing wheels (401) press the strip-shaped plate (601) on the driving wheels (209), and the driving wheels (209) are used for driving the strip-shaped plate (601) to intermittently feed.

5. The continuous processing device for an advanced liquid chromatograph assembly according to claim 4, wherein a bevel gear I (205) is fixedly connected to the lower end of the gear I (203), a bevel gear II (206) is connected to one side of the bevel gear I (205) in a meshed manner, a gear II (207) is fixedly connected to one end of the bevel gear II (206), a gear III (208) is connected to the upper side of the gear II (207) in a meshed manner, a rotating rod is fixedly connected to the middle side of the gear III (208) in a penetrating manner, and the rotating rod penetrates through a pair of driving wheels (209) and is fixedly connected with the driving wheels.

6. The continuous processing device for the high-grade liquid chromatograph assembly according to claim 1, wherein the polishing assembly further comprises a base (110), a cylinder piece (111) is arranged on the inner side of the base (110), a torsion bar (112) is rotatably connected with the driving end of the cylinder piece (111), straight key grooves are formed in two ends of the torsion bar (112), a driving key (113) is slidably matched in the straight key grooves, a gear IV (114) is fixedly connected to the outer end of the driving key (113), a gear V is connected to one side of the gear IV (114) in a meshed mode, the gear V is driven to rotate by the motor assembly, and the torsion bar (112) is fixedly connected with the lifting rotary disc (109).

7. Method of operating a continuous processing device for an assembly of a high-performance liquid chromatograph according to claim 2, characterized in that it comprises the following steps:

s1, conveying a strip-shaped plate (601) to be blanked to the upper side of a transfer table (2) through a feeding belt (7);

S2, when the position of the blanking male die (901) corresponds to that of the blanking female die, driving the blanking male die (901) to descend through the cylinder assembly (9), and blanking the strip-shaped plate (601) by matching with the blanking female die, wherein the blanking male die (901) blanks the screen plate body (6) and presses the screen plate body into the blanking female die;

s3, supporting and limiting the screen plate body (6) by a limiting component on the inner side of the blanking die, and driving the screen plate body to move to the position of the polishing component through rotation of the turntable (2);

S4, polishing the outer edge of the sieve plate body (6) by using a polishing assembly so as to remove burrs;

S5, driving the polished screen plate body (6) to move to the position of a discharging assembly through the middle rotary table (2), and discharging the screen plate body (6) to the collecting box (5) through the discharging assembly.