CN111437673B

CN111437673B - Sintered plate repair system

Info

Publication number: CN111437673B
Application number: CN202010253874.3A
Authority: CN
Inventors: 金杭杰
Original assignee: Qianheng Trading Hangzhou Co ltd
Current assignee: Qianheng Trading Hangzhou Co ltd
Priority date: 2020-04-02
Filing date: 2020-04-02
Publication date: 2021-12-21
Anticipated expiration: 2040-04-02
Also published as: CN111437673A

Abstract

The invention discloses a sintered plate repairing system, and belongs to the technical field of sintered plate repairing. A sintered plate repairing system comprises a plate inlet chamber, a flushing chamber, a drying chamber, a coating chamber, a plate outlet chamber, an integrated air compressor and an air supply pipeline connected to the integrated air compressor, wherein the plate inlet chamber, the flushing chamber, the drying chamber and the flushing chamber are fixedly connected in sequence from left to right, the air supply pipeline sequentially penetrates through the inner walls of the plate inlet chamber, the coating chamber, the drying chamber and the flushing chamber to enter the plate inlet chamber, communication doors which can be opened and closed are arranged between every two of the plate inlet chamber, the flushing chamber, the drying chamber, the coating chamber and the plate outlet chamber, the sintering plate before repair can be blown and cleaned by the blowing component and the cleaning component, and the telescopic pressing component and the centrifugal fan are matched for use, the sintering plate before repair is treated by negative pressure air draft, which not only can remove the adherends on the inner and outer surfaces of the sintering plate, but also can dredge capillary pores in the filter element, the removal efficiency of the adhered substances is higher, and the sintering plate which is originally failed can be recycled.

Description

Sintered plate repair system

Technical Field

The invention relates to the technical field of sintered plate repair, in particular to a sintered plate repair system.

Background

The sintered Plate is made up by using ultrahigh molecular weight polyethylene powder as main raw material, mixing several high-molecular compounds and additives, strictly proportioning them and making casting sintering so as to form a rigid wave-type porous filter core. The plate has the characteristics of static resistance, acid and alkali resistance, strong humidity resistance, wear resistance, long fault-free operation time of the filter plate and the like.

With the continuous development of industry and the national attention on environmental protection, the traditional dust removing equipment can not meet the requirement in performance and service life, so that the new environmental protection technology is continuously developed, a unique wave type plastic sintering plate filter element is selected for a plastic sintering plate (sintering plate) to replace a traditional cloth bag, the plastic sintering plate becomes an excellent choice for industrial dust removal, and has the following characteristics: the filtering precision is high, and the filtering aperture of micron level ensures that more than 1 micron smoke dust particles are intercepted by 100 percent and 0.1 micron smoke dust particles are intercepted by 99.99 percent; the filter area is large, the filter surface is designed in a corrugated manner, and the filter area in the same volume is 3 times that of the filter bag; the acid and alkali resistance is strong, and the special resin material can withstand the long-term high-temperature corrosion of strong acid and strong alkali; the temperature is adapted, and the conventional product can resist the temperature within 80 ℃, 110 ℃ and beyond 160 ℃.

The existing sintering plate is in the repairing process, due to the reasons of improper operation, change of working conditions and the like, the surface of the sintering plate is solidified and caked, and the interior of a sintering plate filter material is further corroded, so that the resistance of the sintering plate is sharply increased until the sintering plate becomes invalid, the sintering plate after the invalid sintering plate can only be abandoned and replaced, the raw material of the sintering plate filter element is expensive, the manufacturing process is complex, the sintering plate filter element is expensive, and the updating of the sintering plate means huge use and operation cost for users.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a sintered plate repairing system which can blow and clean a sintered plate before repairing through a blowing assembly and a cleaning assembly, and can carry out negative pressure air draft treatment on the sintered plate before repairing through the matching use of a telescopic pressing assembly and a centrifugal fan, so that the adhered substances on the inner surface and the outer surface of the sintered plate can be removed, the capillary holes in a filter element can be dredged, the adhered substance removing efficiency is high, and the sintered plate which is originally failed can be recycled.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A sintered plate repairing system comprises a plate inlet chamber, a flushing chamber, a drying chamber, a coating chamber, a plate outlet chamber, an integrated air compressor and an air supply pipeline connected to the integrated air compressor, wherein the plate inlet chamber, the flushing chamber, the drying chamber, the coating chamber, the plate outlet chamber and the air supply pipeline are fixedly connected in sequence from left to right, the air supply pipeline penetrates through the inner walls of the plate inlet chamber, the coating chamber, the drying chamber and the flushing chamber in sequence and enters the plate inlet chamber, openable communicating doors are arranged between the plate inlet chamber, the flushing chamber, the drying chamber, the coating chamber and the plate outlet chamber, opening and closing doors for feeding and discharging materials are arranged at the front ends of the plate inlet chamber and the plate outlet chamber, longitudinal sliding assemblies are fixedly arranged on the left inner wall and the right inner wall of the plate inlet chamber and the plate outlet chamber, transverse sliding assemblies are arranged between the left inner wall and the right inner wall of the plate inlet chamber, the plate outlet chamber and the longitudinal sliding assemblies in the plate inlet chamber are connected in a sliding manner, a plurality of filter plate positioning frames are connected on the transverse sliding assemblies in the plate inlet chamber, the internal thread of the filter plate positioning frame is connected with a sintering plate with an air outlet, the top ends in the plate inlet chamber and the plate outlet chamber are both connected with a material pushing component in a sliding way for pushing the transverse sliding component to move on the longitudinal sliding component, at least one electric rolling component which pushes the filter plate positioning frame to move on the transverse sliding component in the horizontal direction is fixedly arranged at the top ends in the plate inlet chamber, the washing chamber, the drying chamber, the coating chamber and the plate outlet chamber, the top ends in the washing chamber, the drying chamber and the coating chamber are fixedly provided with telescopic compressing components, the top end in the washing chamber is fixedly provided with a blowing component, the blowing component is positioned in the telescopic compaction component, at least one group of cleaning components are arranged on the inner walls of the washing chamber and the coating chamber, the inner walls of the washing chamber, the drying chamber and the coating chamber, which are close to the bottom, are fixedly provided with bottom positioning pieces, and the side wall of the drying chamber, which is close to the bottom, is fixedly provided with a wind temperature heating module.

Furthermore, the longitudinal sliding component comprises a pair of longitudinal positioning frames fixedly arranged on the left inner wall and the right inner wall of the plate inlet chamber (plate outlet chamber) respectively and a plurality of uniformly distributed first universal balls fixedly arranged on the upper surface of the longitudinal positioning frames, the transverse sliding component comprises a transverse positioning frame and a plurality of groups of uniformly distributed second universal balls fixedly arranged on the upper surface of the transverse positioning frame, an auxiliary handle is fixedly arranged on the upper surface of the transverse positioning frame, the material pushing component is in contact with the auxiliary handle and is used for pushing the auxiliary handle and the transverse positioning frame to move on the first universal balls in the front-back direction, in the feeding (discharging) process, the material pushing component pushes the filter plate positioning frame connected with the sintering plate and the first universal balls on the transverse positioning frame to move backwards by corresponding distances, so that one filter plate positioning frame is close to the electric rolling component, when the electric rolling component senses that the filter plate positioning frame is close to the electric rolling component, and starting the actuating cylinder to enable the electric rolling component to press the filter plate positioning frame and push the filter plate positioning frame to move rightwards, so that the filter plate positioning frame enters the flushing chamber (the filter plate positioning frame pushed out by the electric rolling component in the coating chamber moves back to the longitudinal sliding component and can continuously move out of the plate chamber).

Furthermore, the telescopic pressing component comprises an upper fixed box chamber and a lower telescopic box chamber, the upper fixed box chamber is fixedly arranged at the top end in the flushing chamber (drying chamber/coating chamber), the lower telescopic box chamber is slidably connected inside the upper fixed box chamber, a one-stage electromagnetic valve is fixedly arranged inside the upper fixed box chamber, a telescopic soft curtain is connected between the outer wall of the upper fixed box chamber and the outer wall of the lower telescopic box chamber, at least one pair of one-stage execution cylinders is fixedly arranged on the inner side wall of the upper fixed box chamber, the output end of the one-stage execution cylinder is fixed with the upper end of the lower telescopic box chamber, the bottom end of the lower telescopic box chamber is contacted with the upper end of the filter plate positioning frame, after the sintered plate is connected with the filter plate positioning frame, the air outlet of the sintered plate is blocked outside by the telescopic pressing component, when the filter plate positioning frame is not moved to the lower side of the telescopic pressing component, the telescopic soft curtain is in a compression state, when the filter plate positioning frame is moved to the lower side of the telescopic pressing component, the primary execution cylinder is started to drive the lower telescopic box chamber to move downwards to be in contact with the filter plate positioning frame, the movement is stopped, the telescopic soft curtain is in a stretching state in the process, the lower telescopic box chamber can still keep a seamless state with the upper fixed box chamber in the downward moving process under the action of the telescopic soft curtain, when air flow flowing out of an air outlet of the sintering plate is pumped out of a room under the action of a centrifugal fan, negative pressure air pumping operation is completed under the sealing action of the telescopic pressing component, and the air flow is not easy to mix with air flow in a flushing room (drying room/coating room) again to cause dust in the flushing room (drying room/coating room) to float everywhere.

Furthermore, a sealing strip is adhered between the outer side wall and the bottom end of the lower telescopic box chamber, the bottom end of the sealing strip is in contact with the upper end of the filter plate positioning frame, so that the lower telescopic box chamber is always kept in a sealing state with the upper fixed box chamber under the sealing action of the sealing strip when moving downwards to a state of being in contact with the filter plate positioning frame.

Further, under the flexible soft curtain state of stretching out and drawing back the most, the flexible case room upper end in lower part is located the fixed incasement portion in upper portion, and when the flexible case room in lower part removed to the contact filter plate locating rack, the flexible case room upper portion in lower part still was located the fixed incasement portion in upper portion, and the junction between the two does not produce the gap for the air current is difficult for overflowing through the gap between the two and the gap between the fixed case room in upper portion and the flexible soft curtain or the flexible case room in lower part and the flexible soft curtain.

Furthermore, the jetting subassembly is including setting firmly in the top of flushing chamber and being located the inside fixed bolster of upper portion fixed box room, setting firmly in the miniature gas bag of fixed bolster outer end and connecting in the jetting pipe that has a plurality of fumaroles of miniature gas bag outer end, and partial gas in the air supply line is inputed to the jetting pipe through miniature gas bag to spout to the sintering board through the fumarole of jetting pipe, blow to the sintering board inside, make the dust in the gap of attached to the fold on sintering board outer wall or sintering board outer wall blow down.

Further, the air outlet sets up in the sintering board upper end, and the air outlet is a plurality of, jetting pipe last jet orifice quantity keeps unanimous with air outlet quantity, and both positions are corresponding, makes every jet orifice of jetting pipe and every air outlet one-to-one on the sintering board, and a plurality of air outlets of abundant utilization sintering board carry out effectual activity of blowing to sintering inboard portion, improve the efficiency of blowing.

Further, a set of the cleaning assembly is two in number and symmetrically distributed, the cleaning assembly comprises a linear sliding table fixedly arranged on the inner wall of the washing chamber, a fixed frame connected with the linear sliding table in a sliding manner and far away from one end of the inner wall of the washing chamber, a second-level electromagnetic valve and a second-level execution cylinder fixedly arranged on the side end and the outer end of the fixed frame respectively, a cleaning nozzle with a nozzle fixing base fixedly arranged on the upper end of the fixed frame, a rolling brush support fixedly arranged on the second-level execution cylinder and far away from one end of the fixed frame, and an electric rolling brush connected to the rolling brush support, high-pressure water is output by a cleaning device and sprayed out through the cleaning nozzle to clean the surface of the sintering plate in order, so that dust or dirt in gaps of folds on the outer surface or the outer surface of the sintering plate can be cleaned, the second-level electromagnetic valve controls the second-level execution cylinder to start, and the second-level execution cylinder drives the electric rolling brush to move left and right, when the secondary execution cylinder drives the electric rolling brush to move rightwards, the electric rolling brush brushes the folded gap part of the outer surface of the sintering plate, when the secondary execution cylinder does not drive the electric rolling brush to move rightwards, the electric rolling brush brushes the outer surface of the sintering plate, when the sintered plate is washed by high water pressure, the sintered plate is brushed by matching with an electric rolling brush, so that the cleaning efficiency of dust or dirt on the outer surface part of the sintered plate is higher, and the fixed frame can drive the electric rolling brush and the cleaning nozzle to move up and down on the linear sliding table, so that the electric rolling brush and the cleaning nozzle can clean and scrub different upper and lower parts of the outer surface of the sintering plate, while the double cleaning function is carried out, the sintering plate keeps a moving state under the pushing action of the electric rolling component, so that the cleaning nozzle and the electric rolling brush can clean and brush the outer surface of the sintering plate at different parts.

Further, the bottom setting element is including setting firmly the support frame in two inner walls about the coating room and setting firmly the tertiary actuating cylinder in the support frame upper end, two be connected with the filter core locating plate between the tertiary actuating cylinder, the sintering board bottom contacts with the filter core locating plate, plays the supporting role of certain degree to the sintering board through the filter core locating plate for the sintering board is difficult for producing the damage of certain degree because of self stress or the external pressure of applying at the restoration in-process, promotes the filter core locating plate through tertiary actuating cylinder and reciprocates and realize the supporting role of filter core locating plate to the sintering board and break away from the supporting role to the sintering board.

Furthermore, the number of the electric rolling assemblies in the plate inlet chamber and the plate outlet chamber is one, the electric rolling assemblies in the plate inlet chamber are positioned on the right side of the material pushing assembly, the electric rolling assemblies in the plate outlet chamber are positioned on the left side of the material pushing assembly, the number of the electric rolling assemblies in the washing chamber, the drying chamber and the coating chamber is two, the electric rolling assemblies in the plate inlet chamber push the filter plate positioning frame into the washing chamber, the electric rolling assemblies on the left side in the washing chamber gradually push the filter plate positioning frame to the electric rolling assemblies on the right side in the washing chamber, the electric rolling assemblies on the left side in the drying chamber gradually push the filter plate positioning frame to the electric rolling assemblies on the right side in the coating chamber, and the electric rolling assemblies on the right side in the coating chamber push the filter plate positioning frame to the plate outlet chamber, the electric rolling component in the plate discharging chamber pushes the filter plate positioning frame to the transverse positioning frame gradually, and finally the filter plate positioning frame is pushed out of the plate discharging chamber through the material pushing component.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme can blow and wash the processing through jetting subassembly, washing subassembly to the sintering board before restoreing to using through scalable cooperation that compresses tightly subassembly and centrifugal fan, carrying out the negative pressure convulsions to the sintering board before restoreing and handling, not only can making the inside and outside surface of sintering board adhere the thing and can clear away, but also can dredge the inside capillary hole of filter core, it is higher to adhere the thing and clear away efficiency, can make the sintering board that originally became invalid can reuse.

(2) The longitudinal sliding component comprises a pair of longitudinal positioning frames fixedly arranged on the left inner wall and the right inner wall of the plate inlet chamber (plate outlet chamber) respectively and a plurality of first universal balls uniformly distributed and fixedly arranged on the upper surface of the longitudinal positioning frames, the transverse sliding component comprises a transverse positioning frame and a plurality of groups of second universal balls uniformly distributed and fixedly arranged on the upper surface of the transverse positioning frame, an auxiliary handle is fixedly arranged on the upper surface of the transverse positioning frame, the material pushing component is in contact with the auxiliary handle and is used for pushing the auxiliary handle and the transverse positioning frame to move forwards and backwards on the first universal balls, in the feeding (discharging) process, the material pushing component pushes the filter plate positioning frame connected with the sintering plate and the first universal balls on the transverse positioning frame to move backwards by corresponding distances, so that one filter plate positioning frame is close to the electric rolling component, when the electric rolling component senses the approach of the filter plate positioning frame, and starting the actuating cylinder to enable the electric rolling component to press the filter plate positioning frame and push the filter plate positioning frame to move rightwards, so that the filter plate positioning frame enters the flushing chamber (the filter plate positioning frame pushed out by the electric rolling component in the coating chamber moves back to the longitudinal sliding component and can continuously move out of the plate chamber).

(3) The telescopic pressing component comprises an upper fixed box chamber fixedly arranged at the top end in a flushing chamber (drying chamber/coating chamber) and a lower telescopic box chamber slidably connected in the upper fixed box chamber, a primary electromagnetic valve is fixedly arranged in the upper fixed box chamber, a telescopic soft curtain is connected between the outer walls of the upper fixed box chamber and the lower telescopic box chamber, at least one pair of primary execution cylinders is fixedly arranged on the inner side wall of the upper fixed box chamber, the output end of the primary execution cylinder is fixed with the upper end of the lower telescopic box chamber, the bottom end of the lower telescopic box chamber is contacted with the upper end of a filter plate positioning frame, after a sintering plate is connected with the filter plate positioning frame, the air outlet of the sintering plate is blocked outside by the telescopic pressing component, when the filter plate positioning frame does not move to the lower side of the telescopic pressing component, the telescopic soft curtain is in a compression state, when the filter plate positioning frame moves to the lower side of the telescopic pressing component, the primary execution cylinders are started, the lower telescopic box chamber is driven to move downwards to be in contact with the filter plate positioning frame, the movement is stopped, the telescopic soft curtain is in a stretching state in the process, the lower telescopic box chamber can still keep a seamless state with the upper fixed box chamber in the downward moving process under the action of the telescopic soft curtain, when air flow flowing out of an air outlet of the sintering plate is pumped out of a room under the action of a centrifugal fan, the negative pressure air draft operation is completed under the sealing action of the telescopic pressing component, and the air flow is not easy to mix with the air flow in the flushing chamber (drying chamber/coating chamber) again to cause dust in the flushing chamber (drying chamber/coating chamber) to float everywhere.

(4) A sealing strip is adhered between the outer side wall and the bottom end of the lower telescopic box chamber, and the bottom end of the sealing strip is contacted with the upper end of the filter plate positioning frame, so that the lower telescopic box chamber is always kept in a sealing state with the upper fixed box chamber under the sealing action of the sealing strip when moving downwards to a state of contacting with the filter plate positioning frame.

(5) Under the flexible soft curtain state of stretching out and drawing back the most, flexible case room upper end in lower part is located the fixed incasement portion in upper portion, and when the flexible case room in lower part removed to the contact filter plate locating rack, flexible case room upper portion in lower part still was located the fixed incasement portion in upper portion, and the junction between the two does not produce the gap for the air current is difficult for overflowing through the gap between the two and the gap between fixed case room in upper portion and the flexible soft curtain or the flexible case room in lower part and the flexible soft curtain.

(6) The jetting component comprises a fixed support fixedly arranged at the top end in the flushing chamber and positioned in the upper fixed box chamber, a micro air bag fixedly arranged at the outer end of the fixed support and a jetting pipe which is connected to the outer end of the micro air bag and provided with a plurality of air nozzles, wherein part of air in the air supply pipeline is input into the jetting pipe through the micro air bag and is jetted to the sintering plate through the air nozzles of the jetting pipe, and the air is blown into the sintering plate, so that dust attached to the outer wall of the sintering plate or in gaps of folds on the outer wall of the sintering plate is blown down.

(7) The air outlet sets up in sintering board upper end, and the air outlet be a plurality of, and the last jet orifice quantity of jetting pipe keeps unanimous with air outlet quantity, and both positions are corresponding, makes every jet orifice of jetting pipe and every air outlet one-to-one on the sintering board, and a plurality of air outlets of abundant utilization sintering board carry out effectual activity of blowing to sintering inboard portion, improve the efficiency of blowing.

(8) The cleaning components comprise a linear sliding table fixedly arranged on the inner wall of the washing chamber, a fixed frame connected with one end of the linear sliding table far away from the inner wall of the washing chamber in a sliding way, a secondary electromagnetic valve and a secondary execution cylinder which are respectively fixedly arranged at the side end and the outer end of the fixed frame, a cleaning nozzle with a nozzle fixing base fixedly arranged at the upper end of the fixed frame, a rolling brush bracket fixedly arranged at one end of the secondary execution cylinder far away from the fixed frame and an electric rolling brush connected on the rolling brush bracket, high-pressure water output by a cleaning device is sprayed out through the cleaning nozzle to clean the surface of the sintering plate in order, so that dust or dirt in gaps of folds on the outer surface or the outer surface of the sintering plate can be cleaned, the secondary electromagnetic valve controls the secondary execution cylinder to start, the secondary execution cylinder drives the electric rolling brush to move left and right, and when the secondary execution cylinder drives the electric rolling brush to move right, the gap part of the fold of the outer surface of the sintering plate is scrubbed by the electric rolling brush, the outer surface of the sintering plate is scrubbed by the electric rolling brush when the secondary execution cylinder does not drive the electric rolling brush to move rightwards, the sintering plate is washed by high water pressure while being washed, the electric rolling brush is matched to scrub the sintering plate, the dust or dirt cleaning efficiency of the outer surface part of the sintering plate is higher, the fixing frame can drive the electric rolling brush and the cleaning nozzle to move up and down on the linear sliding table, the electric rolling brush and the cleaning nozzle can clean and scrub different parts of the outer surface of the sintering plate up and down, the sintering plate keeps a moving state under the pushing action of the electric rolling assembly while the double cleaning action is carried out, and the cleaning nozzle and the electric rolling brush can clean and scrub the outer surfaces of the different parts of the sintering plate.

(9) Bottom setting element is including setting firmly the support frame of two inner walls about the coating chamber and setting firmly the tertiary actuating cylinder in the support frame upper end, be connected with the filter core locating plate between two tertiary actuating cylinders, the sintering board bottom contacts with the filter core locating plate, play the supporting role of certain degree to the sintering board through the filter core locating plate, make the sintering board difficult in the repair process produce the damage of certain degree because of self stress or the external pressure of exerting, promote the filter core locating plate through tertiary actuating cylinder and reciprocate and realize the supporting role of filter core locating plate to the sintering board and break away from the supporting role to the sintering board.

(10) The number of the electric rolling components in the plate inlet chamber and the plate outlet chamber is one, the electric rolling components in the plate inlet chamber are positioned on the right side of the material pushing components, the electric rolling components in the plate outlet chamber are positioned on the left side of the material pushing components, the number of the electric rolling components in the washing chamber, the number of the electric rolling components in the drying chamber and the number of the electric rolling components in the coating chamber are two, the electric rolling components in the plate inlet chamber push the filter plate positioning frame into the washing chamber, the electric rolling components on the left side in the washing chamber gradually push the filter plate positioning frame to the electric rolling components on the right side in the washing chamber, the electric rolling components on the left side in the drying chamber gradually push the filter plate positioning frame to the electric rolling components on the right side in the coating chamber, and the electric rolling components on the right side in the coating chamber push the filter plate positioning frame into the plate outlet chamber, the electric rolling component in the plate discharging chamber pushes the filter plate positioning frame to the transverse positioning frame gradually, and finally the filter plate positioning frame is pushed out of the plate discharging chamber through the material pushing component.

Drawings

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

FIG. 2 is a schematic structural view of a portion of the inlet chamber of the present invention;

FIG. 3 is a side elevational view of the lateral slide assembly and filter plate spacer portion of the present invention;

FIG. 4 is a schematic front view of the filter plate retainer of the present invention;

FIG. 5 is a schematic structural diagram of the flushing chamber part of the present invention;

FIG. 6 is a schematic structural view of a drying chamber and a coating chamber portion of the present invention;

FIG. 7 is a schematic top view of the present invention;

FIG. 8 is a schematic side view of the rinsing chamber, drying chamber, plate outlet chamber and centrifugal fan section of the present invention;

FIG. 9 is a side view of the cleaning assembly portion of the present invention;

figure 10 is a schematic view of the configuration of the retractable compaction assembly and blowing assembly portions of the invention;

FIG. 11 is a schematic structural view of a bottom positioning element portion of the present invention.

The reference numbers in the figures illustrate:

1 plate inlet chamber, 1011 longitudinal positioning frame, 1012 transverse positioning frame, 1013 filter plate positioning frame, 1014 auxiliary handle, 1015 first universal ball, 2 flushing chamber, 201 blowing component, 2011 fixed support, 2012 micro air bag, 2013 blowing pipe, 3 drying chamber, 301 air temperature heating module, 4 coating chamber, 5 plate outlet chamber, 6 air supply pipeline, 7 integrated air compressor, 8 sintering plate, 9 electric rolling component, 10 telescopic pressing component, 2021 upper fixed box chamber, 2022 lower telescopic box chamber, 2023 primary execution cylinder, 2024 primary electromagnetic valve, 203 telescopic soft curtain, 11 material pushing component, 12 cleaning component, 1201 linear sliding table, 1202 fixed frame, 1203 secondary electromagnetic valve, 1204 secondary execution cylinder, 1205 rolling brush support, 1206 electric rolling brush, 1207 cleaning nozzle, 13 centrifugal fan, 14 bottom positioning piece 1401, filter element positioning plate, 1402 tertiary execution cylinder, 1403 support frame.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-11, a sintered plate repairing system includes a plate inlet chamber 1, a washing chamber 2, a drying chamber 3, a coating chamber 4, a plate outlet chamber 5, an integrated air compressor 7 and an air supply pipeline 6 connected to the integrated air compressor 7, the air supply pipeline 6 sequentially penetrates through the inner walls of the plate inlet chamber 1, the coating chamber 4, the drying chamber 3 and the washing chamber 2 to enter the plate inlet chamber 1, communication doors (not shown) which can be opened and closed are arranged between the plate inlet chamber 1, the washing chamber 2, the drying chamber 3, the coating chamber 4 and the plate outlet chamber 5, the communication doors are automatically closed and can be automatically closed, opening and closing doors for feeding and discharging are arranged at the front ends of the plate inlet chamber 1 and the plate outlet chamber 5, a cleaning device (not numbered) is arranged at the rear side part in the plate inlet chamber 1, the cleaning device is a combination of a cleaning machine and a water tank, and a control system (not numbered) is arranged at the rear side of the plate inlet chamber 1, the control system is positioned at the left side of the cleaning device, a water outlet (not shown) is arranged at the bottom of the washing chamber 2, an air temperature heating module 301 is fixedly arranged on the side wall of the drying chamber 3 close to the bottom, and dust hoppers (not shown) are arranged at the bottoms of the washing chamber 2, the drying chamber 3 and the coating chamber 4.

The left and right inner walls of the plate inlet chamber 1 and the plate outlet chamber 5 are fixedly provided with a longitudinal sliding component, a plate inlet chamber 1 and a flushing chamber 2, the drying chamber 3, the coating chamber 4 and the plate outlet chamber 5 are all provided with a transverse sliding assembly between the left and right inner walls, the transverse sliding assembly in the plate inlet chamber 1 and the plate outlet chamber 5 is connected with a longitudinal sliding assembly in the plate inlet chamber 1 in a sliding manner, the transverse sliding assembly in the plate inlet chamber 1 is connected with a plurality of filter plate positioning frames 1013 in a sliding manner, the filter plate positioning frames 1013 are internally connected with a sintering plate 8 with an air outlet in a threaded manner, and the top ends in the plate inlet chamber 1 and the plate outlet chamber 5 are both connected with a material pushing assembly 11 in a sliding manner for pushing the transverse sliding assembly to move on the longitudinal sliding assembly (under external electric sliding tables and other devices, the material pushing assembly 11 can move left and right and back and forth at the top end in the plate inlet chamber 1/plate outlet chamber 5, so that the material pushing assembly 11 can move left and right and back and forth.

The longitudinal sliding assembly comprises a pair of longitudinal positioning frames 1011 respectively fixed on the left and right inner walls of the plate inlet chamber 1 (plate outlet chamber 5) and a plurality of uniformly distributed first universal balls 1015 fixed on the upper surface of the longitudinal positioning frames 1011, the transverse sliding assembly comprises a transverse positioning frame 1012 and a plurality of groups of uniformly distributed second universal balls fixed on the upper surface of the transverse positioning frame 1012, an auxiliary handle 1014 is fixed on the upper surface of the transverse positioning frame 1012, the material pushing assembly 11 is in contact with the auxiliary handle 1014 for pushing the auxiliary handle 1014 and the transverse positioning frame 1012 to move back and forth on the first universal balls 1015, during the feeding (discharging) process, the material pushing assembly 11 pushes the positioning frame 1013 connected with the sintering plate 8 and the first universal balls 1015 of the transverse positioning frame 1012 on the longitudinal positioning frame 1011 to move back by a corresponding distance, so that one of the filter plate positioning frames 1013 approaches the electric rolling assembly 9, when the electric rolling assembly 9 senses the approach of the filter plate spacers 1013, the actuating cylinder is activated, causing the electric rolling assembly 9 to press against the filter plate spacers 1013 and push them to the right, causing the filter plate spacers 1013 to enter the washing chamber 2 (causing the filter plate spacers 1013 pushed out by the electric rolling assembly 9 in the coating chamber 4 to move back to the longitudinal sliding assembly and to continue moving out of the plate chamber 5).

At least one electric rolling component 9 for pushing a filter plate positioning frame 1013 to move in the horizontal direction on a transverse sliding component is fixedly arranged at the top end in the plate inlet chamber 1, the washing chamber 2, the drying chamber 3, the coating chamber 4 and the plate outlet chamber 5, a proximity switch and an execution cylinder (not numbered) are respectively arranged at the side end and the bottom end of the electric rolling component 9, a telescopic pressing component 10 is fixedly arranged at the top end in the washing chamber 2, the drying chamber 3 and the coating chamber 4, the telescopic pressing component 10 comprises an upper fixed box chamber 2021 fixedly arranged at the top end in the washing chamber 2 (the drying chamber 3/the coating chamber 4) and a lower telescopic box chamber 2022 slidably connected to the inner part of the upper fixed box chamber 2021, a primary electromagnetic valve 2024 is fixedly arranged in the upper fixed box chamber 2021, the primary electromagnetic valve 2024 is positioned at the upper side of the primary execution cylinder 2023 and is positioned at the right side of a fixed support 2011, a telescopic soft curtain 203 is connected between the outer walls of the upper fixed box chamber 2021 and the lower telescopic box chamber 2022, at least one pair of first-stage execution cylinders 2023 is fixedly arranged on the inner side wall of the upper fixed box chamber 2021, the output end of the first-stage execution cylinder 2023 is fixed with the upper end of the lower telescopic box chamber 2022, the bottom end of the lower telescopic box chamber 2022 is contacted with the upper end of the filter plate positioning frame 1013, after the sintering plate 8 is connected with the filter plate positioning frame 1013, the air outlet of the sintering plate 8 is blocked outside by the telescopic pressing component 10, when the filter plate positioning frame 1013 does not move to the lower side of the telescopic pressing component 10, the telescopic soft curtain 203 is in a compressed state, when the filter plate positioning frame 1013 moves to the lower side of the telescopic pressing component 10, the first-stage execution cylinder 2023 is started to drive the lower telescopic box chamber 2022 to move downwards to be contacted with the filter plate positioning frame 1013, the movement is stopped, in the process, the telescopic soft curtain 203 is in a stretched state, under the action of the telescopic soft curtain 203, the lower telescopic box chamber 2022 can still keep a gap state with the upper fixed box chamber 2021 in the downward moving process, when the airflow flowing out through the air outlet of the sintering plate 8 is pumped out of the room under the action of the centrifugal fan 13, the negative pressure air pumping operation is completed under the sealing action of the telescopic pressing component 10, so that the airflow is not easily mixed with the airflow in the washing chamber 2 (the drying chamber 3/the coating chamber 4) again to cause the dust in the washing chamber 2 (the drying chamber 3/the coating chamber 4) to fly around.

A sealing strip is adhered between the outer side wall and the bottom end of the lower telescopic tank chamber 2022, the bottom end of the sealing strip is contacted with the upper end of the filter plate positioning frame 1013, so that when the lower telescopic tank chamber 2022 moves downwards to be contacted with the filter plate positioning frame 1013, the sealing strip is sealed to always keep a sealing state with the upper fixed tank chamber 2021, when the telescopic soft curtain 203 is in the maximum telescopic state, the upper end of the lower telescopic tank chamber 2022 is positioned in the upper fixed tank chamber 2021, when the lower telescopic tank chamber 2022 moves to be contacted with the filter plate positioning frame 1013, the upper part of the lower telescopic tank chamber 2022 is still positioned in the upper fixed tank chamber 2021, and no gap is generated at the joint between the upper telescopic tank chamber 2022 and the lower telescopic soft curtain 203, so that airflow is not easy to overflow through the gap between the upper fixed tank chamber 2021 and the telescopic soft curtain 203 or the gap between the lower telescopic tank chamber 2022 and the telescopic soft curtain 203.

The spraying and blowing component 201 is fixedly arranged at the top end in the flushing chamber 2, the spraying and blowing component 201 is located inside the telescopic pressing component 10, the spraying and blowing component 201 comprises a fixed support 2011 fixedly arranged at the top end in the flushing chamber 2 and located inside the upper fixed box chamber 2021, a micro air bag 2012 fixedly arranged at the outer end of the fixed support 2011 and a spraying and blowing pipe 2013 which is connected to the outer end of the micro air bag 2012 and provided with a plurality of air nozzles, part of air in the air supply pipeline 6 is input into the spraying and blowing pipe 2013 through the micro air bag 2012 and is sprayed to the sintering plate 8 through the air nozzles of the spraying and blowing pipe 2013, and the inside of the sintering plate 8 is blown, so that dust attached to the outer wall of the sintering plate 8 or in gaps of wrinkles on the outer wall of the sintering plate 8 is blown down.

The air outlet sets up in 8 upper ends of sintered plate, and the air outlet is a plurality of, and the last jet port quantity of jetting pipe 2013 keeps unanimous with air outlet quantity, and both positions are corresponding, makes every jet port of jetting pipe 2013 and every air outlet one-to-one on the sintered plate 8, and a plurality of air outlets of abundant utilization sintered plate 8 carry out effectual activity of blowing to sintered plate 8 inside, improve the efficiency of blowing.

The inner walls of the washing chamber 2 and the coating chamber 4 are provided with at least one group of cleaning components 12, the number of the group of cleaning components 12 is two, and the cleaning components 12 are symmetrically distributed, each group of cleaning components 12 comprises a linear sliding table 1201 fixedly arranged on the inner wall of the washing chamber 2, a fixing frame 1202 slidably connected to one end of the linear sliding table 1201 away from the inner wall of the washing chamber 2, a secondary electromagnetic valve 1203 and a secondary execution air cylinder 1204 respectively fixedly arranged on the side end and the outer end of the fixing frame 1202, a cleaning nozzle 1207 with a nozzle fixing base fixedly arranged on the upper end of the fixing frame 1202, a rolling brush support 1205 fixedly arranged on one end of the secondary execution air cylinder 1204 away from the fixing frame 1202, and an electric rolling brush 1206 connected to the rolling brush support, high-pressure water is output by a cleaning device and is sprayed out through the cleaning nozzle 1207 to clean the surface of the sintered plate 8 orderly, so as to clean dust or dirt in gaps on the outer surface of the sintered plate 8 or wrinkles of the outer surface, and the secondary electromagnetic valve 1203 controls the secondary execution air cylinder 1204 to start, the secondary execution cylinder 1204 drives the electric rolling brush 1206 to move left and right, when the secondary execution cylinder 1204 drives the electric rolling brush 1206 to move right, the electric rolling brush 1206 brushes the gap part of the fold on the outer surface of the sintering plate 8, when the secondary execution cylinder 1204 does not drive the electric rolling brush 1206 to move right, the electric rolling brush 1206 brushes the outer surface of the sintering plate 8, when the sintering plate 8 is washed by high water pressure, the electric rolling brush 1206 brushes the sintering plate, so that the dust or dirt cleaning efficiency of the outer surface part of the sintering plate 8 is higher, and the fixing frame 1202 can drive the electric rolling brush 1206 and the cleaning nozzle 1207 to move up and down on the linear sliding table 1201, so that the electric rolling brush 1206 and the cleaning nozzle 1207 can clean and brush different upper and lower parts of the outer surface of the sintering plate 8, and the sintering plate 8 can keep moving under the pushing action of the electric rolling assembly 9 while the double cleaning actions are performed, so that the cleaning nozzle 1207 and the electric roll brush 1206 can clean and scrub the outer surface of the sintered plate 8 at different portions.

Washing chamber 2, the inner wall that drying chamber 3 and coating chamber 4 are close to the bottom all has set firmly bottom location spare 14, bottom location spare 14 is including setting firmly in the support frame 1403 of two inner walls about coating chamber 4 and setting firmly in tertiary execution cylinder 1402 of support frame 1403 upper end, be connected with filter core locating plate 1401 between two

tertiary execution cylinders

1402, 8 bottom ends of sintered plate contact with filter core locating plate 1401, play the supporting role of certain degree to sintered plate 8 through filter core locating plate 1401, make sintered plate 8 be difficult for producing the damage of certain degree because of self stress or the external pressure of applying at the restoration in-process, promote filter core locating plate 1401 to reciprocate through tertiary execution cylinder 1402 and realize filter core locating plate 1401 to the supporting role of sintered plate 8 and break away from the supporting role to sintered plate 8.

A plurality of sintering plates 8 are connected in a plurality of groups of drying chambers 3, each group of drying chambers 3 is arranged on a transverse sliding component in a sliding way, the transverse sliding component is arranged on a longitudinal sliding component in a sliding way, the transverse sliding component slides on the longitudinal sliding component for a certain distance under the pushing action of a pushing component 11, when the transverse sliding component and an electric rolling component 9 are positioned on the same straight line, the electric rolling component 9 pushes the drying chambers 3 on the transverse sliding component to move rightwards to gradually enter a washing chamber 2 for washing operation, a blowing component 201 in the washing chamber 2 blows air into the sintering plates 8 through air outlets in the sintering plates 8, so that dust and the like attached to the outer surfaces of the sintering plates 8 are blown off, meanwhile, a centrifugal fan 13 on the washing chamber 2 and a telescopic pressing component 10 jointly act for negative pressure air draft operation, and capillary holes in the sintering plates 8 can be dredged to a certain degree, after the washing operation is finished, the sintered plate 8 is pushed into the drying chamber 3 through the electric rolling component 9 in the washing chamber 2 for drying operation, moisture contained on the surface or inside of the sintered plate 8 is dried through the air temperature heating module 301, during the drying process, water vapor permeates into the sintered plate 8 through the outer surface of the sintered plate 8, under the action of the centrifugal fan 13 and the telescopic pressing component 10 on the drying chamber 3, the water vapor in the sintered plate 8 is pumped out through the air outlet, the drying speed of the sintered plate 8 is improved, after the drying operation is finished, the sintered plate 8 is pushed into the coating chamber 4 through the electric rolling component 9 in the drying chamber 3 for coating operation, after the coating operation is finished, the sintered plate 8 in the coating chamber 4 is still subjected to negative pressure air draft through the centrifugal fan 13 on the plate outlet chamber 5 and the telescopic pressing component 10 in the coating chamber 4, so that the coated sintered plate 8 is quickly dried, finally, the sintered plate 8 is pushed into the plate discharging chamber 5 through the electric rolling component 9 in the coating chamber 4, slides to the transverse sliding component again under the pushing action of the electric rolling component 9 in the plate discharging chamber 5, and is pushed out of the plate discharging chamber 5 through the pushing component 11, so that the repairing work of the sintered plate 8 is completed, and in the processes of washing, drying and coating, the sintered plate 8 is cleaned and scrubbed through the cleaning component 12, so that the cleaning efficiency of dust and the like attached to the sintered plate 8 is further improved.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. A sintered plate repair system, comprising: including from a left side to the right side advance board room (1), wash room (2), drying chamber (3), coating room (4), go out board room (5), integration air compressor machine (7) and connect in air supply line (6) on integration air compressor machine (7) in proper order, air supply line (6) run through in proper order and get into in board room (1) board room (5), coating room (4), drying chamber (3) and washing room (2) inner wall, it all is equipped with the intercommunication door that can open and shut to advance board room (1), wash room (2), drying chamber (3), coating room (4), play board room (5) between two liang, it all offers the switch door that is used for business turn over material to advance board room (1) and play board room (5) front end, it all has longitudinal sliding assembly to advance board room (1) and wash room (2) left and right sides two inner walls, it sets firmly the board room (1), washing room (2) is, All be equipped with the lateral sliding subassembly between the two inner walls about drying chamber (3), coating chamber (4) and play board room (5), enter the lateral sliding subassembly in board room (1) and play board room (5) and longitudinal sliding subassembly sliding connection in it, sliding connection has a plurality of filter plate locating racks (1013) on the lateral sliding subassembly in advancing board room (1), filter plate locating rack (1013) female connection has sintered plate (8) that has the air outlet, it has material pushing component (11) that are used for promoting the lateral sliding subassembly to move on the longitudinal sliding subassembly to advance board room (1) and go out board room (5) the equal sliding connection in top, it all sets firmly at least one and promotes filter plate locating rack (1013) and carry out the electronic subassembly (9) that rolls that the horizontal direction removed on the lateral sliding subassembly to advance board room (1), washing room (2), drying chamber (3), coating chamber (4) and play board room (5) the top, rinse room (2), drying chamber (3) and coating room (4) interior top all set firmly scalable compress tightly subassembly (10), the top is equipped with jetting subassembly (201) admittedly in rinse room (2), jetting subassembly (201) are located scalable compress tightly inside subassembly (10), rinse room (2) and coating room (4) inner wall are equipped with at least a set of washing subassembly (12), the inner wall that rinse room (2), drying chamber (3) and coating room (4) are close to the bottom all sets firmly bottom setting element (14), the lateral wall that drying chamber (3) are close to the bottom has set firmly wind warm heating module (301), rinse room (2), drying chamber (3) and play board room (5) upper end all set firmly centrifugal fan (13), centrifugal fan (13) outer end is connected with the pipeline of breathing in, is located the pipeline of breathing in rinse room (2) pass rinse room (2) inner wall and with scalable compress tightly subassembly (10) in rinse room (2) mutually The suction pipeline positioned in the drying chamber (3) penetrates through the inner wall of the drying chamber (3) and is connected with the telescopic pressing component (10) in the drying chamber (3), and the suction pipeline positioned in the plate outlet chamber (5) penetrates through the inner wall of the coating chamber (4) and is connected with the telescopic pressing component (10) in the coating chamber (4);

the telescopic pressing component (10) comprises an upper fixed box chamber (2021) and a lower telescopic box chamber (2022), wherein the upper fixed box chamber (2021) is fixedly arranged at the top end in the flushing chamber (2), the lower telescopic box chamber (2022) is slidably connected to the inside of the upper fixed box chamber (2021), a first-stage electromagnetic valve (2024) is fixedly arranged inside the upper fixed box chamber (2021), a telescopic soft curtain (203) is connected between the outer wall of the upper fixed box chamber (2021) and the outer wall of the lower telescopic box chamber (2022), at least one pair of first-stage execution cylinders (2023) are fixedly arranged on the inner side wall of the upper fixed box chamber (2021), the output end of each first-stage execution cylinder (2023) is fixed to the upper end of the lower telescopic box chamber (2022), and the bottom end of the lower telescopic box chamber (2022) is contacted with the upper end of a filter plate positioning frame (1013).

2. A sintered plate repair system as claimed in claim 1, wherein: the longitudinal sliding assembly comprises a pair of longitudinal positioning frames (1011) fixedly arranged on the left inner wall and the right inner wall of the plate feeding chamber (1) and a plurality of uniformly distributed first universal balls (1015) fixedly arranged on the upper surface of the longitudinal positioning frames (1011), the transverse sliding assembly comprises a transverse positioning frame (1012) and a plurality of groups of uniformly distributed second universal balls fixedly arranged on the upper surface of the transverse positioning frame (1012), an auxiliary handle (1014) is fixedly arranged on the upper surface of the transverse positioning frame (1012), and the material pushing assembly (11) is in contact with the auxiliary handle (1014) and is used for pushing the auxiliary handle (1014) and the transverse positioning frame (1012) to move on the first universal balls (1015) in the front-back direction.

3. A sintered plate repair system as claimed in claim 1, wherein: and a sealing strip is adhered between the outer side wall and the bottom end of the lower telescopic box chamber (2022), and the bottom end of the sealing strip is contacted with the upper end of the filter plate positioning frame (1013).

4. A sintered plate repair system as claimed in claim 1, wherein: under the state that the telescopic soft curtain (203) is maximally stretched, the upper end of the lower telescopic box chamber (2022) is positioned in the upper fixed box chamber (2021).

5. A sintered plate repair system as claimed in claim 1, wherein: the blowing component (201) comprises a fixed support (2011) which is fixedly arranged at the top end in the flushing chamber (2) and is positioned in the upper fixed box chamber (2021), a micro air bag (2012) which is fixedly arranged at the outer end of the fixed support (2011) and a blowing pipe (2013) which is connected to the outer end of the micro air bag (2012) and is provided with a plurality of air outlets.

6. A sintered plate repair system as claimed in claim 5, wherein: the air outlets are arranged at the upper end of the sintering plate (8) and are multiple, the number of the air outlets on the blowing pipe (2013) is consistent with that of the air outlets, and the air outlets are corresponding in position.

7. A sintered plate repair system as claimed in claim 1, wherein: the cleaning assembly (12) comprises a linear sliding table (1201) fixedly arranged on the inner wall of a washing chamber (2), a fixing frame (1202) connected to one end, far away from the inner wall of the washing chamber (2), of the linear sliding table (1201), a secondary electromagnetic valve (1203) and a secondary execution cylinder (1204) fixedly arranged on the side end and the outer end of the fixing frame (1202) respectively, a cleaning nozzle (1207) fixedly arranged on the upper end of the fixing frame (1202) and provided with a nozzle fixing base, a rolling brush support (1205) fixedly arranged on the secondary execution cylinder (1204) far away from one end of the fixing frame (1202) and an electric rolling brush (1206) connected to the rolling brush support (1205).

8. A sintered plate repair system as claimed in claim 1, wherein: the bottom positioning piece (14) comprises a support frame (1403) fixedly arranged on the left inner wall and the right inner wall of the coating chamber (4) and three-stage execution cylinders (1402) fixedly arranged on the upper end of the support frame (1403), a filter element positioning plate (1401) is connected between the two three-stage execution cylinders (1402), and the bottom end of the sintering plate (8) is in contact with the filter element positioning plate (1401).

9. A sintered plate repair system as claimed in claim 1, wherein: the number of the electric rolling assemblies (9) in the plate inlet chamber (1) and the plate outlet chamber (5) is one, the electric rolling assemblies (9) in the plate inlet chamber (1) are positioned on the right side of the material pushing assembly (11), the electric rolling assemblies (9) in the plate outlet chamber (5) are positioned on the left side of the material pushing assembly (11), and the number of the electric rolling assemblies (9) in the flushing chamber (2), the drying chamber (3) and the coating chamber (4) is two and is symmetrical.