CN113877282B

CN113877282B - Industrial cooling water saving system

Info

Publication number: CN113877282B
Application number: CN202111268666.1A
Authority: CN
Inventors: 蒋豪
Original assignee: Anhui Hangda Environmental Protection Technology Co ltd
Current assignee: Anhui Hangda Environmental Protection Technology Co ltd
Priority date: 2021-10-29
Filing date: 2021-10-29
Publication date: 2022-12-09
Anticipated expiration: 2041-10-29
Also published as: CN113877282A

Abstract

The invention provides an industrial cooling water saving system which comprises a water inlet tank, a water inlet pipe, a transfer tank, a connecting pipe, a filtering anti-blocking mechanism, a sewage discharging mechanism, two water outlet pipes and two water outlet components, wherein the water inlet pipe is communicated with the inside of the water inlet tank, the transfer tank is arranged beside the water inlet tank, two ends of the connecting pipe are respectively communicated with the water inlet tank and the transfer tank, the filtering anti-blocking mechanism is arranged in the transfer tank, the sewage discharging mechanism is arranged at the bottom of the transfer tank, the two water outlet pipes are symmetrically arranged on the outer wall of the transfer tank far away from the water inlet tank, and the two water outlet components are respectively arranged on the two water outlet pipes.

Description

Industrial cooling water saving system

Technical Field

The invention relates to the field of industrial water-saving equipment, in particular to an industrial cooling water saving system.

Background

In air conditioning systems for the chemical industry, the petroleum industry, the metallurgical industry and buildings, it is often necessary to cool a hot process medium, and the properties of water are well suited for use as a cooling medium. The industrial cooling water exchanges heat indirectly with the process medium through a heat exchanger. The hot process medium is lowered in temperature during the heat exchange, and the cooling water is heated and raised in temperature. The consumption of industrial cooling water is often very large, and accounts for more than 90% -95% of the total amount of industrial water in many enterprises in the chemical industry, and if the industrial cooling water is directly discharged, not only water resources are wasted, but also the environment is polluted, so the industrial cooling water needs to be recycled.

Current industry cooling water saving system generally all is equipped with the filter screen at its inside impurity such as silt carries out filtration treatment, avoids impurity such as silt to get into to cause the damage in the water saving equipment, but the filter screen is direct demountable installation in the pipeline usually, and silt can be piled up in a large number on the surface of filter screen, because the unable self of filter screen shakes, so silt can block up the filter screen along with the time, and then causes the unable normal work of whole industry cooling water saving system, influences production.

Disclosure of Invention

The invention provides an industrial cooling water saving system to improve the problems.

The invention is particularly such that:

the utility model provides an industrial cooling water saving system, includes into water tank, inlet tube, transfer case, connecting pipe, filters and prevents blockking up mechanism, blowdown mechanism, two outlet pipes and two water outlet assembly, the inlet tube is linked together with the inside of intaking the case, the transfer case sets up the side at the case of intaking, the both ends of connecting pipe are linked together with intaking the case and transfer case respectively, filter and prevent blockking up the inside at the transfer case to the top of filtering prevents blockking up the outside that the mechanism extends to the transfer case, blowdown mechanism installs in the bottom of transfer case, and the top of blowdown mechanism is linked together with the inside of transfer case, two outlet pipe symmetry sets up on the outer wall of intaking the case is kept away from to the transfer case to two outlet pipes are linked together with the inside of transfer case, two water outlet assembly installs respectively on two outlet pipes, every water outlet assembly all includes dismantling pipe and valve, the outer wall of dismantling pipe and the inner wall spiro union of outlet pipe to the inside of dismantling pipe is linked together with the inside of outlet pipe, the valve is installed on dismantling the pipe.

Further, it includes bearing frame, lift frame, guided way, movable plate, spliced pole, slide rail, shake board, installing frame, filter screen, shake subassembly, two spacing, two multistage electric putter and two lifter plates to filter to prevent that jam mechanism includes, two spacing symmetry sets up on the inner wall of transfer case, every all be equipped with the elastic conflict subassembly that a plurality of equidistant setting on one side inner wall of spacing, the vertical top that sets up at the transfer case of bearing frame to the bottom of bearing frame is linked together with the inside of transfer case, the lift frame sets up at the top of bearing frame to the inside of lift frame is linked together with the inside of bearing frame, two multistage electric putter symmetry sets up at the top of transfer case, two the lifter plate is connected with two multistage electric putter's output respectively, and the one end of two lifter plates is connected with the outer wall of lift frame, the vertical setting of guided way is on the inner wall of bearing frame to the top of guided way extends to in the lift frame, the top of guided way is contradicted and is slided and is installed on the guided way, the top of two ends of lift frame respectively with the top of lift frame and the top of lift board and the top of the horizontal shake board and the installation frame is connected the bottom of the support frame, the bottom of shake board and shake the installation board and the bottom of the horizontal frame is connected the installation board and the bottom of the installation board and shake the installation board.

Further, the shake subassembly is including rotating motor, cam, roating seat, rotation axis and gyro wheel, the vertical setting of rotation motor is in the bottom of movable plate, the cam is with the output shaft who rotates the motor, the roating seat sets up on the outer wall of shaking the plate, the rotation axis rotates and installs in the roating seat, the gyro wheel is installed on the rotation axis, the one end and the gyro wheel conflict cooperation of cam.

Further, every the elasticity conflict subassembly all includes fixing base, conflict spring and conflict seat, the fixing base is installed on one side inner wall of spacing, the one end of conflict spring and the internal connection of fixing base, it installs on the other end of conflict spring to conflict the seat to the outer wall and the installing frame of conflict seat are contradicted.

Further, sewage discharging mechanism includes the blow off case, keeps off the net, cushion assembly, drain pipe, drain valve, closing plate and two compress tightly the subassembly, the blow off case sets up the bottom at the transfer case to the inside top of blow off case is linked together with the inside of transfer case, be equipped with the seal port on the bottom outer wall of blow off case, keep off the inside bottom that the net set up at the blow off case, cushion the inside at the blow off case to cushion the subassembly and be located the top that keeps off the net, the drain pipe sets up the bottom at the blow off case to the top of drain pipe is linked together with the inside of blow off case, the drain valve is installed on the drain pipe, the closing plate sets up in the seal port to the one end of closing plate extends to the outside of blow off case, two compress tightly the subassembly symmetry and set up on the bottom outer wall of blow off case to two one end that compress tightly the subassembly contradict the cooperation with the outer wall of closing plate.

Further, the buffering subassembly includes connecting axle, adapter sleeve, driving motor and four bolster, the connecting axle rotates and installs in the blow off case, the adapter sleeve is installed on the connecting axle, the driving motor level sets up on the outer wall of blow off case to driving motor's output shaft is connected, four the bolster is around the equidistant setting in the axle center of adapter sleeve on the adapter sleeve, every the bolster all includes loading board, buffering frame and two montants, two the montant symmetry sets up on the adapter sleeve, the loading board is kept away from the one end of adapter sleeve with two montants and is connected, the buffering frame is installed on the loading board.

Further, every compress tightly the subassembly and all include and compress tightly frame, screw rod, rotatory handle and pressure strip, compress tightly the frame setting on the bottom outer wall of blow off case, the screw rod spiro union is on compressing tightly the frame, rotatory handle is connected with the head end of screw rod, the pressure strip is connected with the trailing end of screw rod to the pressure strip is contradicted with the outer wall of closing plate.

Furthermore, the side of case of intaking is equipped with the suction pump, be equipped with first pipeline between the input of suction pump and the case of intaking, the output of suction pump is equipped with the second pipeline.

Furthermore, a rubber sealing ring is arranged on the outer wall of the top end of the bearing frame.

The invention has the beneficial effects that:

one is as follows: according to the invention, cooling water is conveyed into a water inlet tank through a water inlet pipe, the cooling water in the water inlet tank enters a transfer tank through a connecting pipe, then silt in the cooling water in the transfer tank is filtered by a filter screen in a filtering anti-blocking mechanism, the filtering anti-blocking mechanism is operated to drive the filter screen to shake in the filtering process, the silt accumulated on the filter screen enters a drainage mechanism along with shaking, the filter screen is prevented from being blocked by the silt in long-time operation, the filtered cooling water flows into two water outlet assemblies through two water outlet pipes, a valve in each water outlet assembly is used for controlling whether a disassembly pipe discharges water, the disassembly pipe is communicated with water-saving equipment, when the water-saving equipment communicated with one water outlet assembly is maintained, the other water outlet assembly performs water outlet operation, the whole industrial cooling water system is prevented from being stopped, finally, the drainage mechanism is operated to drain the silt in the drainage mechanism periodically, the filter screen in the filtering anti-blocking mechanism is shaken while filtering, the silt is prevented from blocking the filter screen from being blocked along with time, the normal operation of the whole industrial cooling water-saving system is further prevented, and the normal production demand is ensured.

Secondly, the method comprises the following steps: when the filter screen needs to be replaced periodically, only two multistage electric push rods need to work to drive the two lifting plates to move upwards, the two lifting plates drive the lifting frame to move upwards, the lifting frame drives the movable plate to move upwards on the guide rail by virtue of the connecting column, the movable plate finally drives the mounting frame and the filter screen to move upwards, and then the filter screen moves upwards out of the bearing frame, so that the filter screen can be conveniently detached and replaced manually, the filter screen does not need to be manually replaced in a narrow transfer box, the operation is very convenient, and after the filter screen is replaced, the two multistage electric push rods continue to work to drive the filter screen to move downwards into the transfer box to reset.

And thirdly: according to the invention, the connecting shaft and the connecting sleeve are driven to rotate by the work of the driving motor, the connecting sleeve drives the four buffering parts to sequentially rotate to the inner top end of the sewage discharge box, the buffering frame in the buffering part at the inner top end of the sewage discharge box receives silt entering the sewage discharge box, the blocking net is prevented from being damaged by the impact force of the silt directly falling onto the blocking net, the silt in the buffering frame finally rotates to the inner bottom end of the sewage discharge box, and the silt falls onto the blocking net for accumulation, so that the impact of the silt on the blocking net is greatly reduced.

Fourthly, the method comprises the following steps: according to the invention, the screw rod is driven to rotate by manually rotating the rotating handle, the screw rod displaces while rotating, and the screw rod drives the pressing plate to move to be separated from the outer wall of the sealing plate, so that the sealing plate can be conveniently taken out from the sealing opening manually.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a partial cross-sectional view of the first embodiment of the present invention;

FIG. 4 is a partial sectional view of the second embodiment of the present invention;

FIG. 5 is a partial cross-sectional view of the third embodiment of the present invention;

FIG. 6 is an enlarged view taken at A in FIG. 5;

FIG. 7 is a partial perspective view of the present invention;

FIG. 8 is a partial cross-sectional view of a first pollution discharge mechanism of the present invention;

FIG. 9 is a second partial cross-sectional view of the waste mechanism of the present invention;

fig. 10 is an enlarged view of fig. 9 at B.

Icon: the water inlet tank 1, the water inlet pipe 2, the transfer tank 3, the connecting pipe 4, the filtering anti-clogging mechanism 5, the bearing frame 51, the rubber sealing ring 511, the lifting frame 52, the guide rail 53, the moving plate 54, the connecting column 541, the sliding rail 542, the shaking plate 543, the mounting frame 55, the filter screen 551, the shaking assembly 56, the rotating motor 561, the cam 562, the rotating seat 563, the rotating shaft 564, the roller 565, the limiting frame 57, the multistage electric push rod 58, the lifting plate 581, the elastic abutting assembly 59, the fixing seat 591, the abutting spring 592, the abutting seat 593, the sewage discharging mechanism 6, the sewage discharging tank 61, the blocking net 62, the buffering assembly 63, the connecting shaft 631, the connecting sleeve 632, the driving motor 633, the buffering assembly 634, the bearing plate 635, the buffering frame 636, the vertical rod 637, the water discharging pipe 64, the water discharging valve 65, the sealing plate 66, the pressing assembly 67, the pressing assembly 671, the screw 672, the rotating handle 673, the pressing plate 674, the water outlet pipe 7, the water outlet pipe 8, the dismounting pipe 81, the valve 82, the suction pump 9, the first pipe 91, and the second pipe 92.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined or explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that the indication of the orientation or the positional relationship is based on the orientation or the positional relationship shown in the drawings, or the orientation or the positional relationship which is usually placed when the product of the present invention is used, or the orientation or the positional relationship which is usually understood by those skilled in the art, or the orientation or the positional relationship which is usually placed when the product of the present invention is used, is only for the convenience of describing the present invention and simplifying the description, and does not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the present invention should not be construed as being limited. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be further noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-10, the present invention provides an industrial cooling water saving system by improvement, which includes a water inlet tank 1, a water inlet pipe 2, a transfer tank 3, a connecting pipe 4, a filtering anti-clogging mechanism 5, a sewage discharging mechanism 6, two water outlet pipes 7 and two water outlet components 8, wherein the water inlet pipe 2 is communicated with the inside of the water inlet tank 1, the transfer tank 3 is arranged at the side of the water inlet tank 1, both ends of the connecting pipe 4 are respectively communicated with the water inlet tank 1 and the transfer tank 3, the filtering anti-clogging mechanism 5 is arranged inside the transfer tank 3, and the top end of the filtering anti-clogging mechanism 5 extends to the outside of the transfer tank 3, the sewage discharging mechanism 6 is arranged at the bottom of the transfer tank 3, and the top end of the sewage discharging mechanism 6 is communicated with the inside of the transfer tank 3, the two water outlet pipes 7 are symmetrically arranged on the outer wall of the transfer tank 3 far away from the water inlet tank 1, and the two water outlet pipes 7 are communicated with the inside of the transfer tank 3, the two water outlet components 8 are respectively arranged on the two water outlet pipes 7, each water outlet component 8 includes a dismounting pipe 81 and a valve 82, and the dismounting pipe 81 is connected with the dismounting pipe 81 and the dismounting pipe 82; the cooling water is conveyed into the water inlet tank 1 through the water inlet pipe 2, the cooling water in the water inlet tank 1 enters the transfer tank 3 through the connecting pipe 4, then the sand in the cooling water in the transfer tank 3 is filtered through the filter screen 551 in the anti-blocking mechanism 5, the filter screen 551 is driven to shake by the work of the anti-blocking mechanism 5 in the filtering process, the sand accumulated on the filter screen 551 enters the sewage discharging mechanism 6 along with shaking, the situation that the filter screen 551 is blocked by the sand in long-time work is avoided, the filtered cooling water flows into the two water outlet components 8 through the two water outlet pipes 7, the valve 82 in the water outlet component 8 is used for controlling the disassembly pipe 81 to discharge water or not, the disassembly pipe 81 is communicated with water-saving equipment, when the water-saving equipment communicated with one water outlet component 8 is maintained, the other water outlet component 8 performs water outlet operation, the whole industrial cooling water-saving system is prevented from stopping, finally, the sediment in the sewage discharging mechanism 6 works and regularly discharges the sand, and through the steps, the filter screen 551 in the anti-blocking mechanism 5 is shaken to prevent the sand from being blocked from blocking, and further prevent the whole industrial cooling water-saving system 551 from being incapable of normal production and ensure the normal production requirement of the normal production.

Specifically, the filtering anti-clogging mechanism 5 includes a bearing frame 51, a lifting frame 52, a guide rail 53, a moving plate 54, a connecting column 541, a sliding rail 542, a shaking plate 543, a mounting frame 55, a filter screen 551, a shaking assembly 56, two limiting frames 57, two multi-stage electric push rods 58 and two lifting plates 581, the two limiting frames 57 are symmetrically arranged on the inner wall of the transit box 3, a plurality of elastic abutting assemblies 59 arranged at equal intervals are arranged on the inner wall of one side of each limiting frame 57, the bearing frame 51 is vertically arranged on the top of the transit box 3, the bottom of the bearing frame 51 is communicated with the inside of the transit box 3, the lifting frame 52 is arranged on the top of the bearing frame 51, the inside of the lifting frame 52 is communicated with the inside of the bearing frame 51, the two multi-stage electric push rods 58 are symmetrically arranged on the top of the transit box 3, the two lifting plates 581 are respectively connected with the output ends of the two multi-stage electric push rods 58, one end of each of the two lifting plates 581 is connected with the outer wall of the lifting frame 52, the guide rail 53 is vertically arranged on the inner wall of the bearing frame 51, the top end of the guide rail 53 extends into the lifting frame 52, the moving plate 54 is slidably mounted on the guide rail 53, two ends of the connecting post 541 are respectively connected with the top end of the inner part of the lifting frame 52 and the top end of the moving plate 54, the slide rail 542 is horizontally arranged at the bottom of the moving plate 54, the shaking plate 543 is slidably mounted on the slide rail 542, the mounting frame 55 is arranged at the bottom of the shaking plate 543, the bottom end of the mounting frame 55 extends to the bottom end of the inner part of the two limiting frames 57, the filter screen 551 is detachably mounted in the mounting frame 55, the filter screen 551 is positioned in the middle rotating box 3, the shaking assembly 56 is mounted at the bottom of the moving plate 54, and one end of the shaking assembly 56 is connected with the shaking plate 543, one end of each of the elastic abutting assemblies 59 is in abutting fit with the mounting frame 55; the shaking component 56 works to drive the shaking plate 543 to move back and forth on the slide rail 542, the shaking plate 543 drives the mounting frame 55 to move back and forth between the elastic supporting components and the limiting frame 57, the mounting frame 55 finally drives the filter screen 551 to move back and forth, the filter screen 551 moves back and forth to form shaking, so that the filter screen 551 is prevented from being blocked by silt along with time, when the filter screen 551 needs to be replaced regularly, only two multistage electric push rods 58 work to drive the two lifting plates 581 to move up, the two lifting plates 581 drive the lifting frame 52 to move up, the lifting frame 52 drives the movable plate 54 to move up at the guide rail 53 by using the connecting column 541, the movable plate 54 finally drives the mounting frame 55 and the filter screen 551 to move up, and then the filter screen 551 moves up out of the bearing frame 51, the filter screen 551 is conveniently detached and replaced manually, the filter screen 551 does not need to enter the narrow middle rotating box 3 to be replaced manually, and the operation is very convenient, after the replacement of the filter screen 551 is completed, the two multistage electric push rods 58 continue to work to drive the filter screen 551 to move down to move into the middle rotating box 3 to reset.

Specifically, the shaking assembly 56 comprises a rotating motor 561, a cam 562, a rotating base 563, a rotating shaft 564 and a roller 565, wherein the rotating motor 561 is vertically arranged at the bottom of the moving plate 54, the cam 562 is connected with an output shaft of the rotating motor 561, the rotating base 563 is arranged on the outer wall of the shaking plate 543, the rotating shaft 564 is rotatably arranged in the rotating base 563, the roller 565 is arranged on the rotating shaft 564, and one end of the cam 562 is in interference fit with the roller 565; the cam 562 is driven to rotate by the rotation of the motor 561, the roller 565 is used for driving the shaking plate 543 to reciprocate while the cam 562 rotates, the shaking plate 543 drives the mounting frame 55 to reciprocate between the elastic supporting components and the limiting frame 57, the mounting frame 55 finally drives the filter screen 551 to reciprocate, and the filter screen 551 reciprocates to form shaking, so that the purpose of driving the filter screen 551 to shake is achieved.

Specifically, each elastic interference assembly 59 comprises a fixed seat 591, an interference spring 592 and an interference seat 593, wherein the fixed seat 591 is installed on one side inner wall of the limiting frame 57, one end of the interference spring 592 is connected with the inside of the fixed seat 591, the interference seat 593 is installed on the other end of the interference spring 592, and the outer wall of the interference seat 593 is interfered with the mounting frame 55; the mounting frame 55 drives the abutting spring 592 to be stressed and compressed to deform, and the abutting spring 592 carries out spring support on the mounting frame 55, so that the mounting frame 55 drives the filter screen 551 to shake.

Specifically, the sewage discharging mechanism 6 comprises a sewage discharging box 61, a baffle net 62, a buffering component 63, a drain pipe 64, a drain valve 65, a sealing plate 66 and two pressing components 67, wherein the sewage discharging box 61 is arranged at the bottom of the transfer box 3, the top end of the inside of the sewage discharging box 61 is communicated with the inside of the transfer box 3, a sealing opening is formed in the outer wall of the bottom end of the sewage discharging box 61, the baffle net 62 is arranged at the bottom end of the inside of the sewage discharging box 61, the buffering component 63 is arranged inside the sewage discharging box 61, the buffering component 63 is positioned above the baffle net 62, the drain pipe 64 is arranged at the bottom of the sewage discharging box 61, the top end of the drain pipe 64 is communicated with the inside of the sewage discharging box 61, the drain valve 65 is arranged on the drain pipe 64, the sealing plate 66 is arranged in the sealing opening, one end of the sealing plate 66 extends to the outside of the sewage discharging box 61, the two pressing components 67 are symmetrically arranged on the outer wall of the bottom end of the sewage discharging box 61, and one end of the two pressing components 67 is in interference fit with the outer wall of the sealing plate 66; when piling up silt enters into blow off box 61 along with the shake on filter screen 551, buffering subassembly 63 work is cushioned silt, avoid silt directly to fall to the impact force that keeps off on the net 62 and cause the damage to keeping off net 62, when the silt on keeping off net 62 is too much, drain valve 65 is opened to the manual work, water in the blow off box 61 is discharged through drain pipe 64, then two manual rotations compress tightly subassembly 67, two one ends that compress tightly subassembly 67 and the outer wall separation of closing plate 66, take out closing plate 66 in the sealing opening afterwards to the manual work, the manual work utilizes the sealing opening to clear up silt on keeping off net 62.

Specifically, the buffering assembly 63 includes a connecting shaft 631, a connecting sleeve 632, a driving motor 633 and four buffering members 634, the connecting shaft 631 is rotatably installed in the sewage draining box 61, the connecting sleeve 632 is installed on the connecting shaft 631, the driving motor 633 is horizontally arranged on the outer wall of the sewage draining box 61, an output shaft of the driving motor 633 is connected with the connecting shaft 631, the four buffering members 634 are arranged on the connecting sleeve 632 at equal intervals around an axis of the connecting sleeve 632, each buffering member 634 includes a bearing plate 635, a buffering frame 636 and two vertical rods 637, the two vertical rods 637 are symmetrically arranged on the connecting sleeve 632, the bearing plate 635 is connected with one end of the two vertical rods 637 far away from the connecting sleeve 632, and the buffering frame 636 is installed on the bearing plate 635; drive connecting axle 631 and adapter sleeve 632 through driving motor 633 work and rotate, adapter sleeve 632 drives four bolster 634 and rotates to the inside top of blow off case 61 in proper order, the buffering frame 636 that is arranged in the bolster 634 on the inside top of blow off case 61 connects the getting to the silt that gets into to blow off case 61, avoid silt directly to fall to the impact force that keeps off on net 62 and cause the damage to keeping off net 62, silt in the buffering frame 636 rotates the inside bottom to blow off case 61 at last, silt falls into and carries out the pile to keeping off on net 62 this moment, the impact of silt to keeping off net 62 has significantly reduced.

Specifically, each of the pressing assemblies 67 comprises a pressing frame 671, a screw 672, a rotating handle 673 and a pressing plate 674, the pressing frame 671 is arranged on the outer wall of the bottom end of the sewage tank 61, the screw 672 is screwed on the pressing frame 671, the rotating handle 673 is connected with the head end of the screw 672, the pressing plate 674 is connected with the tail end of the screw 672, and the pressing plate 674 abuts against the outer wall of the sealing plate 66; the screw 672 is driven to rotate by manually rotating the rotating handle 673, the screw 672 is displaced while rotating, and the screw 672 drives the pressing plate 674 to move to be separated from the outer wall of the sealing plate 66, so that the sealing plate 66 can be conveniently and manually taken out of the sealing opening.

Specifically, a water suction pump 9 is arranged beside the water inlet tank 1, a first pipeline 91 is arranged between the input end of the water suction pump 9 and the water inlet tank 1, and a second pipeline 92 is arranged at the output end of the water suction pump 9; when the silt to keeping off on the net 62 clears up, inlet tube 2 stops to get into the cooling water, then the cooling water that suction pump 9 work extracted into water tank 1 and transfer case 3 flows out through first pipeline 91 and second pipeline 92, prevents that transfer case 3 from having the internal cooling water to influence the drainage operation of blowdown case 61.

Specifically, a rubber sealing ring 511 is arranged on the outer wall of the top end of the bearing frame 51; the rubber sealing ring 511 seals between the top end of the bearing frame 51 and the bottom end of the lifting frame 52, so that foreign impurities such as dust from the outside are prevented from entering the transfer box 3 finally and polluting cooling water.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The industrial cooling water saving system is characterized by comprising a water inlet tank (1), a water inlet pipe (2), a transfer tank (3), a connecting pipe (4), a filtering anti-blocking mechanism (5), a sewage discharging mechanism (6), two water outlet pipes (7) and two water outlet components (8), wherein the water inlet pipe (2) is communicated with the inside of the water inlet tank (1), the transfer tank (3) is arranged beside the water inlet tank (1), two ends of the connecting pipe (4) are respectively communicated with the water inlet tank (1) and the transfer tank (3), the filtering anti-blocking mechanism (5) is arranged inside the transfer tank (3), the top end of the filtering anti-blocking mechanism (5) extends to the outside of the transfer tank (3), the sewage discharging mechanism (6) is arranged at the bottom of the transfer tank (3), the top end of the sewage discharging mechanism (6) is communicated with the inside of the transfer tank (3), the two water outlet pipes (7) are symmetrically arranged on the outer wall of the transfer tank (3) far away from the water inlet tank (1), the two water outlet pipes (7) are respectively communicated with the inner wall of the transfer tank (3), and the two water outlet pipes (7) are respectively connected with the water outlet pipe (81) and the two water outlet pipes (8) and the two water outlet pipes (7) are respectively connected with the water outlet pipe (81), the interior of the dismounting pipe (81) is communicated with the interior of the water outlet pipe (7), and the valve (82) is arranged on the dismounting pipe (81);

the filtering anti-blocking mechanism (5) comprises a bearing frame (51), a lifting frame (52), a guide rail (53), a moving plate (54), a connecting column (541), a sliding rail (542), a shaking plate (543), a mounting frame (55), a filter screen (551), a shaking assembly (56), two limiting frames (57), two multi-stage electric push rods (58) and two lifting plates (581), wherein the two limiting frames (57) are symmetrically arranged on the inner wall of the transit box (3), a plurality of elastic abutting components (59) which are arranged at equal intervals are arranged on the inner wall of one side of each limiting frame (57), the bearing frame (51) is vertically arranged at the top of the transit box (3), the bottom of the bearing frame (51) is communicated with the inside of the transit box (3), the lifting frame (52) is arranged at the top of the bearing frame (51), the inside of the lifting frame (52) is communicated with the inside of the bearing frame (51), the two multi-stage electric push rods (58) are symmetrically arranged at the top of the transit box (3), the two lifting plates (53) are respectively connected with the outer wall of the two lifting plates (53), and the two lifting plates (581) are arranged at the outer wall of the lifting frame (51), and the top of guided way (53) extends to in the lift frame (52), moving plate (54) slidable mounting is on guided way (53), the both ends of spliced pole (541) are connected with the inside top of lift frame (52) and the top of moving plate (54) respectively, slide rail (542) level sets up the bottom at moving plate (54), shake plate (543) slidable mounting is on slide rail (542), installation frame (55) set up the bottom at shake plate (543), and the bottom of installation frame (55) extends to the inside bottom of two spacing framves (57), filter screen (551) demountable installation is in installation frame (55), and filter screen (551) are located transit box (3), shake subassembly (56) install in the bottom of (54), and the one end of shake subassembly (56) is connected with shake plate (543), the one end of a plurality of elastic component (59) all contradict the cooperation with installation frame (55).

2. The industrial cooling water saving system of claim 1, wherein the shaking assembly (56) comprises a rotating motor (561), a cam (562), a rotating base (563), a rotating shaft (564) and a roller (565), the rotating motor (561) is vertically arranged at the bottom of the moving plate (54), the cam (562) is connected with an output shaft of the rotating motor (561), the rotating base (563) is arranged on an outer wall of the shaking plate (543), the rotating shaft (564) is rotatably arranged in the rotating base (563), the roller (565) is arranged on the rotating shaft (564), and one end of the cam (562) is in interference fit with the roller (565).

3. An industrial cooling water saving system according to claim 1, wherein each of the elastic interference assemblies (59) comprises a fixed seat (591), an interference spring (592) and an interference seat (593), the fixed seat (591) is installed on one side inner wall of the limit bracket (57), one end of the interference spring (592) is connected with the inside of the fixed seat (591), the interference seat (593) is installed on the other end of the interference spring (592), and the outer wall of the interference seat (593) is interfered with the mounting frame (55).

4. The industrial cooling water saving system according to claim 1, wherein the sewage draining mechanism (6) comprises a sewage draining tank (61), a blocking net (62), a buffering assembly (63), a water draining pipe (64), a water draining valve (65), a sealing plate (66) and two pressing assemblies (67), the sewage draining box (61) is arranged at the bottom of the transfer box (3), and the top end in the sewage draining box (61) is communicated with the interior of the transfer box (3), the outer wall of the bottom end of the sewage draining box (61) is provided with a sealing port, the baffle net (62) is arranged at the inner bottom end of the sewage draining box (61), the buffer component (63) is arranged inside the sewage draining box (61), and the buffer component (63) is positioned above the baffle net (62), the drain pipe (64) is arranged at the bottom of the sewage draining box (61), and the top end of the drain pipe (64) is communicated with the inside of the drain tank (61), the drain valve (65) is arranged on the drain pipe (64), the sealing plate (66) is arranged in the sealing opening, one end of the sealing plate (66) extends to the outside of the sewage draining box (61), the two compaction components (67) are symmetrically arranged on the outer wall of the bottom end of the sewage draining box (61), and one ends of the two hold-down assemblies (67) are in interference fit with the outer wall of the sealing plate (66).

5. The industrial cooling water saving system according to claim 4, wherein the buffer assembly (63) comprises a connecting shaft (631), a connecting sleeve (632), a driving motor (633) and four buffering members (634), the connecting shaft (631) is rotatably installed in the sewage draining tank (61), the connecting sleeve (632) is installed on the connecting shaft (631), the driving motor (633) is horizontally arranged on the outer wall of the sewage draining tank (61), the output shaft of the driving motor (633) is connected with the connecting shaft (631), four buffering members (634) are equidistantly arranged on the connecting sleeve (632) around the axis of the connecting sleeve (632), each buffering member (634) comprises a bearing plate (635), a buffer frame (636) and two vertical rods (637), two vertical rods (637) are symmetrically arranged on the connecting sleeve (632), the bearing plate (635) is connected with one ends of the two vertical rods (637) far away from the connecting sleeve (632), and the buffer frame (636) is installed on the bearing plate (635).

6. The industrial cooling water saving system according to claim 4, wherein each of the pressing assemblies (67) comprises a pressing frame (671), a screw rod (672), a rotating handle (673) and a pressing plate (674), the pressing frame (671) is arranged on the outer wall of the bottom end of the sewage draining box (61), the screw rod (672) is screwed on the pressing frame (671), the rotating handle (673) is connected with the head end of the screw rod (672), the pressing plate (674) is connected with the tail end of the screw rod (672), and the pressing plate (674) abuts against the outer wall of the sealing plate (66).

7. The industrial cooling water saving system according to claim 1, wherein a water suction pump (9) is provided beside the water inlet tank (1), a first pipeline (91) is provided between an input end of the water suction pump (9) and the water inlet tank (1), and a second pipeline (92) is provided at an output end of the water suction pump (9).

8. The industrial cooling water saving system according to claim 1, wherein the outer wall of the top end of the bearing frame (51) is provided with a rubber sealing ring (511).