CN110755909A

CN110755909A - Output structure for brine production system

Info

Publication number: CN110755909A
Application number: CN201911107483.4A
Authority: CN
Inventors: 吴其龙
Original assignee: PANZIHUA STEEL XINYU CHEMICAL CO Ltd
Current assignee: PANZIHUA STEEL XINYU CHEMICAL CO Ltd
Priority date: 2019-11-13
Filing date: 2019-11-13
Publication date: 2020-02-07

Abstract

The invention discloses an output structure, particularly discloses an output structure for a brine production system, and belongs to the technical field of design and manufacture of chlor-alkali production process equipment. The output structure for the brine production system can obviously reduce the labor intensity of operators and improve the production efficiency. The output structure comprises a filter bed arranged on a salt water conveying channel, and further comprises an automatic residue cleaning device, woven bag residues attached to a filter screen of the filter bed are cleaned by the automatic residue cleaning device and are discharged to a residue discharge port along with the conveyed salt water.

Description

Output structure for brine production system

Technical Field

The invention relates to an output structure, in particular to an output structure for a brine production system, and belongs to the technical field of design and manufacture of chlor-alkali production process equipment.

Background

As a large amount of salt water is needed in the chlor-alkali industry, each chlor-alkali plant has a brine production system, and the brine of a certain company is produced by dissolving industrial salt in a salt dissolving tank, removing impurities and putting into use. In order to ensure the high efficiency and timeliness of production, the woven bags are directly cut open by a knife at the salt inlet during production, and then conveyed to the salt dissolving pool by a belt to be dissolved, so that inevitable residues of the woven bags are mixed with the solid salt to enter the salt dissolving pool, and the quality of salt water is influenced.

Moreover, because the debris has big or small, the too big mesh of filter screen that uses can lead to filtering unclean, and the too little mesh will lead to the too much jam of debris accumulation again, so need often go the rubbish in the clearance net, not only seriously influence the normal clear of production, can increase manufacturing cost and operating personnel's intensity of labour moreover.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the output structure for the brine production system can obviously reduce the labor intensity of operators and improve the production efficiency.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides an output structure for salt solution production system, is including arranging the filter bed on salt solution transfer passage, output structure still include the automatic cleaning device of bits of broken glass, be attached to the braided bag bits of broken glass on the filter screen of filter bed pass through the automatic cleaning device of bits of broken glass clear away and discharge to the bits of broken glass discharge port along with the salt solution of carrying.

Further, a residual scrap collecting box is arranged at the tail end of the residual scrap discharge port.

The automatic scrap cleaning device comprises a cleaning assembly and a hydraulic driving assembly, wherein the cleaning assembly is arranged below the filter screen through the hydraulic driving assembly, and the woven bag scrap attached to the filter screen is cleaned through the cleaning assembly under the cooperation of the hydraulic driving assembly and is discharged to a scrap discharge port along with the conveyed salt water.

Further, the hydraulic driving assembly comprises a hydraulic driving roller, and the cleaning assembly comprises a plurality of rows of cleaning brushes arranged on the hydraulic driving roller along the circumferential direction.

The hydraulic driving assembly further comprises a support frame and a hydraulic driving system, the hydraulic driving system is arranged on the hydraulic driving roller, and the hydraulic driving roller is arranged below the filter screen through the support frame.

Furthermore, the hydraulic drive system comprises a plurality of groups of water grooves, and each group of water grooves is axially arranged on the outer side wall of the hydraulic drive roller along the hydraulic drive roller.

In a preferred aspect of the above aspect, the number of the sets of the water tanks corresponds to the number of the sets of the cleaning brushes, and the water tanks of each set are respectively arranged on the hydraulically driven rollers at the root of the cleaning brushes of each set in a corresponding manner.

Furthermore, the output structure also comprises a diversion groove arranged below the filter screen, and the hydraulic driving roller is arranged above the diversion groove through the supporting frame.

Furthermore, a chip discharge groove which is obliquely arranged is arranged between the filter screen and the residual chip collecting box.

The invention has the beneficial effects that: this application sets up automatic cleaning device of incomplete bits through increasing on the present salt solution transfer passage who filters the bed and constitutes the application output structure, and the messenger is attached to the braided bag incomplete bits on the filter screen of filtering the bed pass through automatic cleaning device of incomplete bits clear away and discharge to the incomplete bits discharge port along with the salt solution of carrying. Like this, come the incomplete bits of clearance in the brine in the transportation process through increasing automatic cleaning device of incomplete bits, solved among the prior art or clear the bits thoroughly, or the technical problem of must personnel's operation during clear bits, not only improved production efficiency, alleviateed operating personnel's intensity of labour, can effectual assurance clear quality of bits moreover, and then guarantee the quality of brine production. Meanwhile, as no longer specially-arranged scraps cleaning personnel are needed in the salt water conveying process, the production cost can be effectively reduced, and the production efficiency is further improved from the angle of ensuring the smoothness of a salt water conveying channel.

Drawings

FIG. 1 is a schematic diagram of an output configuration for a brine production system according to the present invention;

fig. 2 is a schematic structural diagram of a hydraulic drive roller according to the present invention.

Labeled as: the device comprises a brine conveying channel 1, a filter bed 2, an automatic residual scrap cleaning device 3, a filter screen 4, a residual scrap discharge port 5, a residual scrap collecting box 6, a cleaning assembly 7, a hydraulic driving assembly 8, a cleaning brush 9, a support frame 10, a hydraulic driving system 11, a water tank 12, a baffling tank 13 and a scrap discharge groove 14.

Detailed Description

Fig. 1 and 2 show an output structure for a brine production system, which can significantly reduce the labor intensity of operators and improve the production efficiency. The output structure including arranging the filtration bed 2 on salt solution transfer passage 1, the output structure still include automatic cleaning device 3 of incomplete bits, be attached to the braided bag incomplete bits on the filter screen 4 of filtration bed 2, through automatic cleaning device 3 of incomplete bits clear away and discharge to incomplete bits discharge port 5 along with the salt solution of carrying. This application sets up automatic cleaning device of incomplete bits through increasing on the present salt solution transfer passage who filters the bed and constitutes the application output structure, and the messenger is attached to the braided bag incomplete bits on the filter screen of filtering the bed pass through automatic cleaning device of incomplete bits clear away and discharge to the incomplete bits discharge port along with the salt solution of carrying. Like this, come the incomplete bits of clearance in the brine in the transportation process through increasing automatic cleaning device of incomplete bits, solved among the prior art or clear the bits thoroughly, or the technical problem of must personnel's operation during clear bits, not only improved production efficiency, alleviateed operating personnel's intensity of labour, can effectual assurance clear quality of bits moreover, and then guarantee the quality of brine production. Meanwhile, as no longer specially-arranged scraps cleaning personnel are needed in the salt water conveying process, the production cost can be effectively reduced, and the production efficiency is further improved from the angle of ensuring the smoothness of a salt water conveying channel.

In the above embodiment, in order to collect the cleaned scraps, a scrap collecting box 6 is further disposed at the end of the scrap discharge port 5, and a scrap discharge groove 14 arranged obliquely is further disposed between the filter screen 4 and the scrap collecting box 6, so as to facilitate the recovery of the cleaned scraps.

Correspondingly, for adapting to salt solution production, transfer chain, simultaneously can the great limit simplify the output structure that this application provided again, this application automatic cleaning device 3 of sweeps including clearance subassembly 7 and water drive assembly 8, clearance subassembly 7 pass through water drive assembly 8 arrange the below of filter screen 4, adhere to braided bag sweeps on the filter screen 4 pass through clearance subassembly 7 be in the cooperation of water drive assembly 8 is cleared away and is discharged to sweeps discharge port 5 with the salt solution of carrying down. At this time, the hydraulic driving assembly 8 may include a hydraulic driving roller, a supporting frame 10 and a hydraulic driving system 11, and the cleaning assembly 7 includes a plurality of rows of cleaning brushes 9 circumferentially arranged on the hydraulic driving roller; the hydraulic driving system 11 is arranged on the hydraulic driving roller, and the hydraulic driving roller is arranged below the filter screen 4 through the supporting frame 10.

Further, in order to maximally use the salt water in the conveying process as the driving force to drive the cleaning brush to clean the scraps accumulated on the filter screen 4, the hydraulic drive system 11 of the present application preferably includes a plurality of sets of water tanks 12, and each set of water tanks 12 is axially arranged on the outer side wall of the hydraulic drive roller along the hydraulic drive roller. At this time, the number of the groups of the water tanks 12 is equal to the number of the groups of the cleaning brushes 9, and the water tanks 12 of each group are correspondingly arranged on the hydraulic driving roller at the root of each group of the cleaning brushes, corresponding to the cleaning brushes 9.

Of course, as mentioned above, in connection with the prior art construction in which a deflecting groove is provided below the filter wire, in order to be compatible with the brine production, the conveyor line, the hydraulically driven rollers are arranged above the deflecting groove 13 by means of the support frame, in order to minimize the amount of change.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In order to overcome the condition that the filter screen needs to be cleaned by manpower frequently in the existing brine filtering process, a treatment scheme for automatically cleaning the woven bag scraps at the water inlet of the baffle groove is provided.

The specific theoretical basis for solving the technical problems is as follows: brine flows into the filter bed from the salt dissolving pool, and the residual scraps in the brine are intercepted by a filter screen in the filter device, and meanwhile, when the brine flows through a small groove arranged on a rotating wheel below the filter bed, the rotating wheel starts to rotate clockwise due to the gravity action of the brine when the brine accumulated in the small groove reaches a certain degree, the side wheel is driven to rotate, and meanwhile, the cleaning brush on the side wheel can brush the residual scraps on the filter screen to a discharge port on the right side of the filter bed and discharge the residual scraps through the discharge port.

As shown in figures 1 and 2, the output structure of the device mainly comprises a filter bed and a rotating wheel, and the power of the rotating wheel is completely provided by the saline water in the salt dissolving pool without additional power supply. Salt solution is flowed down by the filter screen, during the little recess of inflow, little recess drives the runner and rotates under the action of gravity, then sweeps the sweeps to the sweeps discharge port by the cleaning brush on with the filter screen, is collected by the containing box.

The size of each article in the system is decided by the condition of actual scene, and the width of filter screen is decided by the size of the incomplete bits of braided bag, and the cleaning brush is made by elastic material a little and is slightly less than the mesh width, prevents to lead to the cleaning brush to be blocked by the filter screen because of the resistance of incomplete bits is left and right sides.

Claims

1. An output structure for a brine production system comprising a filter bed (2) arranged on a brine transfer channel (1), characterized in that: the output structure also comprises an automatic scrap cleaning device (3), woven bag scraps attached to a filter screen (4) of the filter bed (2) are cleaned by the automatic scrap cleaning device (3) and discharged to a scrap discharge port (5) along with conveyed salt water.

2. The output structure for brine production system as claimed in claim 1, wherein: and a residual scrap collecting box (6) is also arranged at the tail end of the residual scrap discharge port (5).

3. The output structure for brine production system as claimed in claim 1 or 2, wherein: automatic cleaning device of sweeps (3) including clearance subassembly (7) and water drive subassembly (8), clearance subassembly (7) pass through water drive subassembly (8) arrange in the below of filter screen (4), adhere to braided bag sweeps on filter screen (4) pass through clearance subassembly (7) are in clear away and discharge to sweeps discharge port (5) department along with the salt solution of carrying under the cooperation of water drive subassembly (8).

4. The output structure for brine production system as claimed in claim 3, wherein: the hydraulic driving assembly (8) comprises a hydraulic driving roller, and the cleaning assembly (7) comprises a plurality of rows of cleaning brushes (9) which are arranged on the hydraulic driving roller along the circumferential direction.

5. The output structure for brine production system as claimed in claim 4, wherein: the hydraulic drive assembly (8) further comprises a support frame (10) and a hydraulic drive system (11), the hydraulic drive system (11) is arranged on the hydraulic drive roller, and the hydraulic drive roller is arranged below the filter screen (4) through the support frame (10).

6. The output structure for brine production system as claimed in claim 5, wherein: the hydraulic drive system (11) comprises a plurality of groups of water tanks (12), and each group of water tanks (12) is axially arranged on the outer side wall of the hydraulic drive roller along the hydraulic drive roller.

7. The output structure for brine production system as claimed in claim 6, wherein: the number of the groups of the water tanks (12) is equivalent to that of the cleaning brushes (9), and the water tanks (12) of each group are correspondingly arranged on the hydraulic driving roller at the root of each group of the cleaning brushes respectively.

8. The output structure for brine production system as claimed in claim 7, wherein: the output structure also comprises a diversion groove (13) arranged below the filter screen (4), and the hydraulic driving roller is arranged above the diversion groove (13) through the supporting frame.

9. The output structure for brine production system as claimed in claim 3, wherein: a chip groove (14) which is obliquely arranged is also arranged between the filter screen (4) and the residual chip collecting box (6).