CN112619304A

CN112619304A - Waste water and waste gas centralized treatment equipment

Info

Publication number: CN112619304A
Application number: CN202011499603.2A
Authority: CN
Inventors: 张建
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-04-09

Abstract

The invention relates to waste gas treatment equipment, in particular to waste water and waste gas centralized treatment equipment which comprises a negative pressure suction mechanism, a transfer cleaning mechanism and a water filtering mechanism, wherein the equipment can form negative pressure to suck waste gas, can provide a rotary filtering function, can clean a filter plate, can filter waste water, can blend tail gas into the waste water, is connected with the transfer cleaning mechanism, and is connected with the water filtering mechanism.

Description

Waste water and waste gas centralized treatment equipment

Technical Field

The invention relates to waste gas treatment equipment, in particular to waste water and waste gas centralized treatment equipment.

Background

In the treatment process of waste water and waste gas, the traditional treatment process is singly cut and cracked, and the characteristics of the two are not fully utilized for combined treatment, so that the centralized treatment equipment for waste water and waste gas is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a wastewater and waste gas centralized treatment device, which can form negative pressure to suck waste gas, can provide a rotary filtering function, can clean a filter plate, can filter wastewater and can enable tail gas to be merged into wastewater.

In order to solve the technical problem, the invention relates to waste gas treatment equipment, in particular to waste water and waste gas centralized treatment equipment which comprises a negative pressure suction mechanism, a transfer cleaning mechanism and a water filtering mechanism, wherein the equipment can form negative pressure to suck waste gas, can provide a rotary filtering function, can clean a filtering plate, can filter waste water and can enable tail gas to be mixed into the waste water.

The negative pressure suction mechanism is connected with the transfer cleaning mechanism, and the transfer cleaning mechanism is connected with the water filtering mechanism.

As a further optimization of the technical scheme, the negative pressure suction mechanism of the wastewater and waste gas centralized treatment equipment comprises a motor, a motor belt pulley, a belt, an air inlet, a belt shaft transmission belt pulley, an outer cover, a negative pressure box, a connecting arm, a hinged arm, a reciprocating rotation filter base, a hinged arm I, a replaceable filter plate, a bearing seat with a through groove, a rotating cylinder with a blade, an arc-shaped bulge, a bearing seat I with a through groove, a pulley seat, a connecting rod and a spring, wherein the motor is connected with the motor belt pulley, the motor belt pulley is in friction connection with the belt, the belt is in friction connection with the belt shaft transmission belt pulley, the air inlet is arranged on the outer cover, the outer cover is connected and communicated with the negative pressure box, the connecting arm is positioned at two sides of the negative pressure box, one side of the connecting arm is hinged with the hinged arm, reciprocating rotation filters the seat and rotates with the negative pressure case to be connected, reciprocating rotation filters the seat and links to each other with removable filter, the logical groove bearing frame of area I all links to each other with the negative pressure case, the logical groove bearing frame of area I all rotates with belt shaft drive pulley to be connected, belt shaft drive pulley links to each other with a belt blade rotating cylinder, it is protruding to be equipped with the arc on the belt blade rotating cylinder, the pulley contacts with belt blade rotating cylinder, the pulley rotates with the pulley holder to be connected, the pulley holder links to each other with the connecting rod, the connecting rod links to each other with the linking arm, the spring housing is on the connecting rod, the spring housing is connected.

As a further optimization of the technical scheme, the transfer cleaning mechanism of the centralized wastewater and waste gas treatment equipment comprises a base, a bearing seat A, a rotary hollow shaft, a scraper, a boss, a limiting hole, a collecting cylinder, a collecting outlet, a side connecting plate, a support with holes, a hydraulic cylinder fixing seat, a hydraulic rod, a movable seat with an inclined surface, a limiting rod, a stepped rod, a supporting spring, a friction seat, a sliding rod, a pressing spring, a friction seat with an inclined surface and a matching hole, wherein the base is connected with a motor, the base is connected with a negative pressure box, the base is connected with the bearing seat A, the bearing seat A is rotatably connected with the rotary hollow shaft, the scraper is arranged in the rotary hollow shaft, the rotary hollow shaft and the scraper are both in friction connection with a replaceable filter plate, the boss is arranged on the rotary hollow shaft, the limiting hole is arranged, the collecting outlet is connected with the sliding rod, the sliding rod is connected with the porous support in a sliding manner, the porous support is connected with the base, the hydraulic cylinder is connected with the hydraulic cylinder fixing seat, the hydraulic cylinder is connected with the hydraulic rod, the hydraulic rod is connected with the inclined plane movable seat, the inclined plane movable seat is in contact with the inclined plane friction seat, the inclined plane friction seat is connected with the sliding rod, the compression spring is sleeved on the sliding rod, the compression spring supports the inclined plane movable seat, the inclined plane friction seat is arranged, the inclined plane movable seat is connected with the limiting rod, the limiting rod is in sliding connection with the matching hole formed in the friction seat, the stepped rod is in sliding connection with the inclined plane movable seat, the support spring is sleeved on the stepped rod, and the two ends of the support are respectively connected with.

As a further optimization of the technical scheme, the water filtering mechanism of the wastewater and waste gas centralized treatment equipment comprises a flanged water inlet pipe, a melt-in water tank, a communication port, a connecting water pipe, a filtering tank, a flanged water outlet pipe, a bent arm support, a water blocking seat, a pulling hydraulic rod, a pulling hydraulic cylinder, a convex seat, a unthreaded hole I, a square plug, a filtering seat, a filtering cavity, a filtering connecting pipe and a filtering water outlet pipe, wherein the flanged water inlet pipe is connected and communicated with the melt-in water tank, the melt-in water tank is provided with the communication port which is communicated with a collecting outlet, a collecting cylinder is connected with the melt-in water tank, the melt-in water tank is communicated with the filtering tank through the connecting water pipe, the filtering tank is communicated with the flanged water outlet pipe, the bent arm support is connected with a base, the bent arm support is connected with the pulling hydraulic cylinder, the pulling hydraulic cylinder is connected with the pulling hydraulic rod, the pulling hydraulic rod is connected with the unthreaded, the water blocking seat is connected with the filter box in a sliding mode, the protruding seat is arranged on the water blocking seat and connected with the filter seat, the filter seat is connected with the filter box in a sliding mode, the hydraulic rod is pulled up to be connected with the square plug, the square plug is connected with the filter cavity arranged on the filter seat in a sliding mode, the filter cavity is communicated with the filter connecting pipe and the filter water pipe respectively, the filter water tank is blended into the filter cavity and connected with the base, the filter box is connected with the base, and the bent arm support is connected with the base.

As a further optimization of the technical scheme, the length of the pull-up hydraulic rod of the wastewater and waste gas centralized treatment equipment is greater than the height of the filter box.

The equipment for centralized treatment of waste water and waste gas has the beneficial effects that:

according to the centralized waste water and waste gas treatment equipment, negative pressure can be formed by the equipment to suck waste gas, the equipment can provide a rotary filtering function, the equipment can clean a filter plate, the equipment can filter waste water, and tail gas can be blended into the waste water by the equipment.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a wastewater and waste gas centralized treatment device of the present invention.

FIG. 2 is a schematic structural diagram of a wastewater and waste gas centralized treatment device of the present invention.

FIG. 3 is a third schematic structural diagram of a wastewater and waste gas centralized treatment device of the present invention.

FIG. 4 is a fourth schematic structural diagram of a wastewater and waste gas centralized treatment device of the present invention.

FIG. 5 is a schematic structural diagram of a wastewater and waste gas centralized treatment device according to the present invention.

Fig. 6 is a first structural schematic diagram of a negative pressure suction mechanism 1 of a wastewater and waste gas centralized treatment device of the invention.

Fig. 7 is a second structural schematic diagram of the negative pressure suction mechanism 1 of the wastewater and waste gas centralized treatment equipment of the invention.

Fig. 8 is a third schematic structural diagram of a negative pressure suction mechanism 1 of a wastewater and waste gas centralized treatment device of the invention.

Fig. 9 is a fourth schematic structural diagram of the negative pressure suction mechanism 1 of the wastewater and waste gas centralized treatment equipment of the invention.

Fig. 10 is a fifth structural schematic diagram of the negative pressure suction mechanism 1 of the centralized wastewater and waste gas treatment equipment of the invention.

Fig. 11 is a first structural schematic diagram of a transit cleaning mechanism 2 of a wastewater and waste gas centralized treatment device of the invention.

Fig. 12 is a second schematic structural diagram of the transfer cleaning mechanism 2 of the centralized wastewater and waste gas treatment equipment of the invention.

Fig. 13 is a third schematic structural diagram of the transfer cleaning mechanism 2 of the centralized wastewater and waste gas treatment equipment of the invention.

Fig. 14 is a fourth schematic structural diagram of the transfer cleaning mechanism 2 of the centralized wastewater and waste gas treatment equipment of the invention.

Fig. 15 is a first structural schematic diagram of a water filtering mechanism 3 of a wastewater and waste gas centralized treatment device of the invention.

Fig. 16 is a second schematic structural diagram of a water filtering mechanism 3 of a wastewater and waste gas centralized treatment device according to the present invention.

Fig. 17 is a third schematic structural diagram of a water filtering mechanism 3 of a wastewater and waste gas centralized treatment device of the invention.

Fig. 18 is a fourth schematic structural diagram of a water filtering mechanism 3 of a wastewater and waste gas centralized treatment device of the invention.

Fig. 19 is a fifth schematic structural diagram of a water filtering mechanism 3 of a wastewater and waste gas centralized treatment device of the invention.

In the figure: a negative pressure suction mechanism 1; a motor 1-1; a motor belt pulley 1-2; 1-3 of a belt; 1-4 of an air inlet; belt shaft transmission belt pulleys 1-5; 1-6 of the outer cover; 1-7 parts of a negative pressure box; connecting arms 1-8; articulated arms 1-9; reciprocating and rotating the filter base 1-10; articulated arm I1-11; 1-12 of replaceable filter plates; bearing seats with through grooves 1-13; rotating cylinders 1-14 with blades; 1-15 of arc-shaped bulges; bearing seats I1-16 with through grooves; pulleys 1-17; pulley seats 1-18; connecting rods 1-19; 1-20 parts of spring; a transfer cleaning mechanism 2; a base 2-1; bearing seat A2-2; a rotating hollow shaft 2-3; 2-4 of a scraper; 2-5 parts of a boss; 2-6 of a limiting hole; 2-7 of a collecting cylinder; a collection outlet 2-8; side connection plates 2-9; 2-10 of a support with holes; 2-11 parts of a hydraulic cylinder; 2-12 hydraulic cylinder fixing seats; 2-13 of hydraulic rod; 2-14 of a movable seat with an inclined plane; 2-15 parts of a limiting rod; step bars 2-16; support springs 2-17; 2-18 parts of a friction seat; 2-19 slide bars; 2-20 parts of a compression spring; 2-21 parts of a friction seat with an inclined surface; 2-22 of matching holes; a water filtering mechanism 3; a water inlet pipe 3-1 with a flange; 3-2 parts of a water tank; 3-3 of a communication port; connecting 3-4 water pipes; 3-5 of a filter box; 3-6 of a water outlet pipe with a flange; 3-7 of bent arm support; 3-8 parts of a water retaining seat; pulling up the hydraulic rod 3-9; 3-10 of hydraulic cylinder is pulled up; 3-11 parts of a boss; light hole I3-12; 3-13 parts of square plug; 3-14 parts of a filter seat; 3-15 parts of a filter cavity; 3-16 parts of a filtering connecting pipe; and a filtering water outlet pipe 3-17.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present invention relates to an exhaust gas treatment apparatus, and more specifically, to a waste water and exhaust gas centralized treatment apparatus, which includes a negative pressure suction mechanism 1, a transit cleaning mechanism 2, and a water filter mechanism 3, and is capable of forming a negative pressure to suck in exhaust gas, and is capable of providing a rotary filter function, and is capable of cleaning a filter plate, filtering waste water, and blending exhaust gas into waste water.

The negative pressure suction mechanism 1 is connected with the transfer cleaning mechanism 2, and the transfer cleaning mechanism 2 is connected with the water filtering mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19. this embodiment further describes the present embodiment, and the present embodiment is a first embodiment, and the negative pressure suction mechanism 1 includes a motor 1-1, a motor pulley 1-2, a belt 1-3, an air inlet 1-4, a belt shaft transmission pulley 1-5, a housing 1-6, a negative pressure tank 1-7, a connecting arm 1-8, a hinge arm 1-9, a reciprocating rotation filter base 1-10, a hinge arm I1-11, a replaceable filter plate 1-12, a grooved bearing base 1-13, a bladed rotation drum 1-14, an arc-shaped projection 1-15, a grooved bearing base I1-16, a grooved bearing, 1-17 pulleys, 1-18 pulley seats, 1-19 connecting rods and 1-20 springs, wherein a motor 1-1 is connected with a motor pulley 1-2, the motor pulley 1-2 is connected with a belt 1-3 in a friction way, the belt 1-3 is connected with a belt shaft transmission pulley 1-5 in a friction way, an air inlet 1-4 is arranged on a housing 1-6, the housing 1-6 is connected and communicated with a negative pressure box 1-7, connecting arms 1-8 are positioned at two sides of the negative pressure box 1-7, one side connecting arm 1-8 is hinged with a hinged arm 1-9, the other side connecting arm 1-8 is hinged with a hinged arm I1-11, the hinged arm 1-9 and the hinged arm I1-11 are hinged with a reciprocating rotary filter seat 1-10, the reciprocating rotary filter seat 1-10 is rotatably connected with the negative pressure box 1-7, the reciprocating rotary filter base 1-10 is connected with the replaceable filter plate 1-12, the grooved bearing base 1-13 and the grooved bearing base I1-16 are connected with the negative pressure box 1-7, the grooved bearing base 1-13 and the grooved bearing base I1-16 are connected with the belt shaft transmission belt pulley 1-5 in a rotary way, the belt shaft transmission belt pulley 1-5 is connected with the vane rotary drum 1-14, the vane rotary drum 1-14 is provided with an arc-shaped bulge 1-15, the pulley 1-17 is contacted with the vane rotary drum 1-14, the pulley 1-17 is connected with the pulley base 1-18 in a rotary way, the pulley base 1-18 is connected with the connecting rod 1-19, the connecting rod 1-19 is connected with the connecting arm 1-8, the spring 1-20 is sleeved on the connecting rod 1-19, two ends of a spring 1-20 are respectively connected to pulley seats 1-18 and the inner wall of a negative pressure box 1-7, a connecting rod 1-19 is connected with the negative pressure box 1-7 in a sliding manner, a motor belt pulley 1-2 is driven to rotate by the operation of a motor 1-1, the motor belt pulley 1-2 drives a belt shaft transmission belt pulley 1-5 to rotate by a belt 1-3, the belt shaft transmission belt pulley 1-5 drives a blade-provided rotating cylinder 1-14 to rotate to form negative pressure, external air and waste gas to be treated are sucked into the negative pressure box 1-7 from an air inlet 1-4 uniformly, meanwhile, the blade-provided rotating cylinder 1-14 drives an arc-shaped bulge 1-15 to rotate, the arc-shaped bulge 1-15 continuously pushes up pulleys 1-17 on two sides, and the pulleys 1-17 can pass through the pulley seats 1-18, The connecting rods 1-19 drive the connecting arms 1-8 to move, and then reset under the resilience effect of the springs 1-20, so that the connecting arms 1-8 on the two sides can perform reciprocating linear motion, the connecting arms 1-8 can drive the reciprocating rotation filter bases 1-10 to perform reciprocating rotation through the articulated arms 1-9 and the articulated arms I1-11, the reciprocating rotation filter bases 1-10 can drive the replaceable filter plates 1-12 to perform reciprocating rotation, the replaceable filter plates 1-12 can perform rotary filtration on sucked waste gas, and the rotary hollow shaft 2-3 and the scraper 2-4 can perform reciprocating rotation along with the replaceable filter plates 1-12 due to friction force when the replaceable filter plates 1-12 rotate.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the embodiment further describes the embodiment, and the transit cleaning mechanism 2 includes a base 2-1, a bearing seat a2-2, a rotary hollow shaft 2-3, a scraper 2-4, a boss 2-5, a limiting hole 2-6, a collecting cylinder 2-7, a collecting outlet 2-8, a side connecting plate 2-9, a perforated support 2-10, a hydraulic cylinder 2-11, a hydraulic cylinder fixing seat 2-12, a hydraulic rod 2-13, a movable seat with an inclined surface 2-14, a limiting rod 2-15, a stepped rod 2-16, a support spring 2-17, a support spring, 2-18 parts of friction seat, 2-19 parts of slide bar, 2-20 parts of compression spring, 2-21 parts of friction seat with inclined plane and 2-22 parts of matching hole, wherein the base 2-1 is connected with the motor 1-1, the base 2-1 is connected with the negative pressure box 1-7, the base 2-1 is connected with the bearing seat A2-2, the bearing seat A2-2 is rotationally connected with the rotary hollow shaft 2-3, the rotary hollow shaft 2-3 is internally provided with a scraper 2-4, the rotary hollow shaft 2-3 and the scraper 2-4 are both connected with the replaceable filter plate 1-12 in a friction way, the rotary hollow shaft 2-3 is provided with a boss 2-5, the boss 2-5 is provided with a limit hole 2-6, the boss 2-5 is rotationally connected with the collecting cylinder 2-7, the collecting cylinder 2-7 is provided with, the collection outlet 2-8 is connected with a sliding rod 2-19, the sliding rod 2-19 is connected with a perforated support 2-10 in a sliding manner, the perforated support 2-10 is connected with a base 2-1, a hydraulic cylinder 2-11 is connected with the base 2-1, the hydraulic cylinder 2-11 is connected with a hydraulic cylinder fixing seat 2-12, the hydraulic cylinder fixing seat 2-12 is connected with a bearing seat A2-2, the hydraulic cylinder 2-11 is connected with a hydraulic rod 2-13, the hydraulic rod 2-13 is connected with a movable seat 2-14 with an inclined surface, the movable seat 2-14 with the inclined surface is contacted with a friction seat 2-21 with the inclined surface, the friction seat 2-21 with the inclined surface is connected with the sliding rod 2-19, a compression spring 2-20 is sleeved on the sliding rod 2-19, the compression spring 2-20 is abutted, The friction seat 2-21 with the inclined plane, the movable seat 2-14 with the inclined plane is connected with the limiting rod 2-15, the limiting rod 2-15 is connected with the matching hole 2-22 arranged on the friction seat 2-18 in a sliding way, the step rod 2-16 is connected with the movable seat 2-14 with the inclined plane in a sliding way, the supporting spring 2-17 is sleeved on the step rod 2-16, the two ends of the supporting spring are respectively connected with the movable seat 2-14 with the inclined plane and the friction seat 2-18, when the impurity accumulation on the replaceable filter plate 1-12 is more, the hydraulic rod 2-13 can be driven by the hydraulic cylinder 2-11 to move, the movable seat 2-14 with the inclined plane can be driven by the hydraulic rod 2-13 to move upwards, the movable seat 2-14 with the inclined plane can move upwards to gradually lose the support of the friction seat 2-21, the compressed compression springs 2-20 can release to drive the friction bases 2-21 with the inclined planes to be attached to the bosses 2-5, so that friction force is applied to the bosses 2-5, the rotation of the rotary hollow shaft 2-3 and the scrapers 2-4 is slowed down through the bosses 2-5, relative sliding exists between the scrapers 2-4 and the replaceable filter plates 1-12, the movable bases 2-14 with the inclined planes can drive the friction bases 2-18 to continuously move upwards so that the friction bases 2-18 are pressed against the bosses 2-5, the scrapers 2-4 continue to have the trend of weakened rotation, the support springs 2-17 are gradually compressed, the limiting rods 2-15 can finally slide into the limiting holes 2-6, and finally the rotary hollow shaft 2-3 and the scrapers 2-4 are completely stopped, therefore, the scrapers 2-4 and the replaceable filter plates 1-12 are always kept in a relative sliding state, so that impurities on the replaceable filter plates 1-12 can be scraped off, the hydraulic rods 2-13 move in a reverse direction after cleaning is finished, the movable seats 2-14 with the inclined surfaces reset, the rotary hollow shafts 2-3 and the scrapers 2-4 rotate along with the replaceable filter plates 1-12 again, gas transmission cannot be influenced at ordinary times, cleaning of the replaceable filter plates 1-12 can be achieved when the state is changed, the process time of relative sliding cannot be too long, and abrasion of the replaceable filter plates 1-12 is aggravated.

The fourth concrete implementation mode:

the embodiment is described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19. the embodiment further describes the first embodiment, and the water filtering mechanism 3 comprises a flanged water inlet pipe 3-1, a merged water tank 3-2, a communication port 3-3, a connecting water pipe 3-4, a filtering tank 3-5, a flanged water outlet pipe 3-6, a bent arm support 3-7, a water retaining seat 3-8, a pull-up hydraulic rod 3-9, a pull-up hydraulic cylinder 3-10, a convex seat 3-11, a light hole I3-12, a square plug 3-13, a filtering seat 3-14, a filtering cavity 3-15, a filtering connecting pipe 3-16, and a filtered water pipe 3-17, a water inlet pipe 3-1 with a flange is connected and communicated with a melt-in water tank 3-2, the melt-in water tank 3-2 is provided with a communication port 3-3, the communication port 3-3 is communicated with a collection outlet 2-8, a collection cylinder 2-7 is connected with the melt-in water tank 3-2, the melt-in water tank 3-2 is communicated with a filter tank 3-5 through a connecting water pipe 3-4, the filter tank 3-5 is communicated with a water outlet pipe 3-6 with a flange, a bent arm support 3-7 is connected with a base 2-1, the bent arm support 3-7 is connected with a pulling hydraulic cylinder 3-10, the pulling hydraulic cylinder 3-10 is connected with a pulling hydraulic rod 3-9, the pulling hydraulic rod 3-9 is connected with a unthreaded hole I3-12 arranged on a water retaining seat 3-8 in a sliding manner, the water retaining seat 3-8 is connected with the filter tank 3-5 in a sliding manner, the water retaining base 3-8 is provided with a convex base 3-11, the convex base 3-11 is connected with a filter base 3-14, the filter base 3-14 is connected with a filter box 3-5 in a sliding way, a hydraulic rod 3-9 is pulled up to be connected with a square plug 3-13, the square plug 3-13 is connected with a filter cavity 3-15 arranged on the filter base 3-14 in a sliding way, the filter cavity 3-15 is respectively communicated with a filter connecting pipe 3-16 and a filter water outlet pipe 3-17, a melt-in water tank 3-2 is connected with a base 2-1, the filter box 3-5 is connected with the base 2-1, a bent arm support 3-7 is connected with the base 2-1, a flanged water inlet pipe 3-1 is externally connected with a waste water inlet pipe, a flanged water outlet pipe 3-6 is externally connected with a waste water outlet pipe, then water flows into the melt-in water tank 3-2 from the flanged water inlet pipe 3-4, the water enters the filter tank 3-5, the pressure of the water can help filtered air flow to better enter the water tank 3-2 from the collecting cylinder 2-7, so that impurities which are not filtered can be melted into the water so far, the water can be filtered once when passing through the filter connecting pipe 3-16, then enters the filter cavity 3-15, then flows out of the filter water outlet pipe 3-17 and is filtered once, if the filter water outlet pipe 3-17 is blocked, the hydraulic cylinder 3-10 can be pulled up to drive the pull-up hydraulic rod 3-9 to move downwards, the pull-up hydraulic rod 3-9 can drive the square plug 3-13 to move downwards to pressurize the filter cavity 3-15, the effect of accelerating the pressure of the water flow can be achieved, and therefore the filter connecting pipe 3-16 and the filter water outlet pipe 3-17 are pressurized to open silt, when the filtering connecting pipes 3-16 and the filtering water outlet pipes 3-17 need to be integrally treated, the pulling hydraulic rods 3-9 can be pulled upwards, the pulling hydraulic rods 3-9 drive the direction plugs 3-13 to move upwards, and the direction plugs 3-13 are contacted with the convex seats 3-11, so that the convex seats 3-11 are driven to move upwards, the filtering seats 3-14 are integrally pulled out of the filtering tank 3-5 upwards, and cleaning is facilitated.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the first embodiment, in which the length of the pull-up hydraulic rod 3-9 is greater than the height of the filter tank 3-5.

The working principle of the device is as follows: the equipment can form negative pressure to suck waste gas, the equipment can provide a rotary filtering function, a motor belt pulley 1-2 is driven to rotate by the operation of a motor 1-1, the motor belt pulley 1-2 can drive a belt shaft transmission belt pulley 1-5 to rotate through a belt 1-3, the belt shaft transmission belt pulley 1-5 can drive a blade rotation cylinder 1-14 to rotate to form negative pressure, outside gas and waste gas to be treated are sucked into a negative pressure box 1-7 from an air inlet 1-4 uniformly, meanwhile, the blade rotation cylinder 1-14 can drive an arc-shaped bulge 1-15 to rotate, the arc-shaped bulge 1-15 can continuously push up pulleys 1-17 on two sides, and the pulleys 1-17 can drive a connecting arm 1-8 to move through a pulley seat 1-18 and a connecting rod 1-19, then resetting is carried out under the rebound action of the springs 1-20, so that the connecting arms 1-8 on the two sides can carry out reciprocating linear motion, the connecting arms 1-8 can drive the reciprocating rotary filter bases 1-10 to carry out reciprocating rotation through the hinged arms 1-9 and the hinged arms I1-11, the reciprocating rotary filter bases 1-10 can drive the replaceable filter plates 1-12 to carry out reciprocating rotation, the replaceable filter plates 1-12 can carry out rotary filtration on sucked waste gas, and the rotary hollow shaft 2-3 and the scraper 2-4 can carry out reciprocating rotation along with the replaceable filter plates 1-12 due to friction when the replaceable filter plates 1-12 rotate; the equipment can clean the filter plate, when the impurities on the replaceable filter plate 1-12 are accumulated more, the hydraulic cylinder 2-11 can drive the hydraulic rod 2-13 to move, the hydraulic rod 2-13 can drive the inclined plane movable seat 2-14 to move upwards, the inclined plane movable seat 2-14 can move upwards to enable the inclined plane friction seat 2-21 to gradually lose support, the compressed compression spring 2-20 can release to drive the inclined plane friction seat 2-21 to be attached to the boss 2-5, friction force is applied to the boss 2-5, the rotation of the rotary hollow shaft 2-3 and the scraper 2-4 is slowed down through the boss 2-5, so that the scraper 2-4 and the replaceable filter plate 1-12 slide relatively, and the inclined plane movable seat 2-14 can drive the friction seat 2-18 to continuously move upwards to enable the friction seat 2-18 to continuously move The scraper 2-4 is pressed on the boss 2-5, the rotation of the scraper 2-4 is weakened, the supporting spring 2-17 is gradually compressed, the limiting rod 2-15 slides into the limiting hole 2-6, and the rotary hollow shaft 2-3 and the scraper 2-4 are stopped completely, so that the scraper 2-4 and the replaceable filter plate 1-12 are kept in a relative sliding state all the time, impurities on the replaceable filter plate 1-12 can be scraped off, the hydraulic rod 2-13 moves in reverse direction after cleaning is finished, the movable seat 2-14 with the inclined surface is reset, the rotary hollow shaft 2-3 and the scraper 2-4 rotate along with the replaceable filter plate 1-12 again, so that the transmission of gas is not influenced at ordinary times, and the cleaning of the replaceable filter plate 1-12 can be realized when the state is changed, the process time of relative sliding is not too long, and the abrasion of the replaceable filter plates 1-12 is aggravated; the device can filter waste water, the device can enable tail gas to be blended into the waste water, a flanged water inlet pipe 3-1 is externally connected with a waste water inlet pipe, a flanged water outlet pipe 3-6 is externally connected with a waste water outlet pipe, then water flows into a water tank 3-2 from the flanged water inlet pipe 3-1 and then enters a filter box 3-5 through a connecting water pipe 3-4, filtered air flow can better enter the water tank 3-2 from a collecting cylinder 2-7 due to the pressure of the water, so that impurities which are not filtered can be blended into the water so far, the water is filtered once when passing through a filtering connecting pipe 3-16 and then enters a filter cavity 3-15, then flows out of a filtering water pipe 3-17 and is filtered once, if the water pipe 3-17 is blocked and filtered, the hydraulic rod 3-9 can be pulled up by pulling up the hydraulic cylinder 3-10 to drive to move downwards, the hydraulic rod 3-9 is pulled up to drive the directional plug 3-13 to move downwards to pressurize the filter cavity 3-15, so that the effect of accelerating the pressure of water flow can be achieved, the filter connecting pipe 3-16 and the filter outlet pipe 3-17 are all subjected to pressure to open silt, when the filter connecting pipe 3-16 and the filter outlet pipe 3-17 need to be integrally treated, the pull-up hydraulic rod 3-9 can be driven to move upwards, the hydraulic rod 3-9 is pulled up to drive the directional plug 3-13 to move upwards, and the directional plug 3-13 is contacted with the convex seat 3-11, the convex seat 3-11 can be driven to move upwards, so that the filter seat 3-14 is pulled upwards integrally out of the filter box 3-5, and the cleaning is facilitated.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a waste water waste gas centralized processing equipment, includes negative pressure suction mechanism (1), transfer clearance mechanism (2), water filtering mechanism (3), its characterized in that: the negative pressure suction mechanism (1) is connected with the transfer cleaning mechanism (2), and the transfer cleaning mechanism (2) is connected with the water filtering mechanism (3).

2. The centralized wastewater and waste gas treatment equipment according to claim 1, characterized in that: the negative pressure suction mechanism (1) comprises a motor (1-1), a motor belt pulley (1-2), a belt (1-3), an air inlet (1-4), a belt shaft transmission belt pulley (1-5), an outer cover (1-6), a negative pressure box (1-7), a connecting arm (1-8), an articulated arm (1-9), a reciprocating rotary filter base (1-10), an articulated arm I (1-11), a replaceable filter plate (1-12), a bearing base with a through groove (1-13), a rotary cylinder with blades (1-14), an arc-shaped bulge (1-15), a bearing base with a through groove I (1-16), a pulley (1-17), a pulley base (1-18), a connecting rod (1-19) and a spring (1-20), wherein the motor (1-1) is connected with the motor belt pulley (1-2), the motor belt pulley (1-2) is in friction connection with the belt (1-3), the belt (1-3) is in friction connection with the belt shaft transmission belt pulley (1-5), the air inlet (1-4) is arranged on the outer cover (1-6), the outer cover (1-6) is connected and communicated with the negative pressure box (1-7), the connecting arms (1-8) are positioned at two sides of the negative pressure box (1-7), the connecting arm (1-8) at one side is hinged with the hinged arm (1-9), the connecting arm (1-8) at the other side is hinged with the hinged arm I (1-11), the hinged arm (1-9) and the hinged arm I (1-11) are both hinged with the reciprocating rotary filter seat (1-10), the reciprocating rotary filter seat (1-10) is in rotary connection with the negative pressure box (1-7), the reciprocating rotary filter base (1-10) is connected with a replaceable filter plate (1-12), the bearing base (1-13) with the through groove and the bearing base I (1-16) with the through groove are connected with a negative pressure box (1-7), the bearing base (1-13) with the through groove and the bearing base I (1-16) with the through groove are rotationally connected with a transmission belt pulley (1-5) with a shaft, the transmission belt pulley (1-5) with the shaft is connected with a rotating cylinder (1-14) with blades, an arc-shaped bulge (1-15) is arranged on the rotating cylinder (1-14) with the blades, a pulley (1-17) is contacted with the rotating cylinder (1-14) with the blades, the pulley (1-17) is rotationally connected with the pulley base (1-18), the pulley base (1-18) is connected with a connecting rod (1-19), the connecting rods (1-19) are connected with the connecting arms (1-8), the springs (1-20) are sleeved on the connecting rods (1-19), two ends of the springs (1-20) are respectively connected to the pulley seats (1-18) and the inner walls of the negative pressure boxes (1-7), and the connecting rods (1-19) are connected with the negative pressure boxes (1-7) in a sliding mode.

3. The centralized wastewater and waste gas treatment equipment according to claim 1, characterized in that: the transfer cleaning mechanism (2) comprises a base (2-1), a bearing seat A (2-2), a rotary hollow shaft (2-3), a scraper (2-4), a boss (2-5), a limiting hole (2-6), a collecting cylinder (2-7), a collecting outlet (2-8), a side connecting plate (2-9), a support with a hole (2-10), a hydraulic cylinder (2-11), a hydraulic cylinder fixing seat (2-12), a hydraulic rod (2-13), a movable seat with an inclined plane (2-14), a limiting rod (2-15), a stepped rod (2-16), a support spring (2-17), a friction seat (2-18), a sliding rod (2-19), a compression spring (2-20), a friction seat with an inclined plane (2-21), The device comprises matching holes (2-22), a base (2-1) is connected with a motor (1-1), the base (2-1) is connected with a negative pressure box (1-7), the base (2-1) is connected with a bearing seat A (2-2), the bearing seat A (2-2) is rotatably connected with a rotary hollow shaft (2-3), a scraper (2-4) is arranged in the rotary hollow shaft (2-3), the rotary hollow shaft (2-3) and the scraper (2-4) are in friction connection with a replaceable filter plate (1-12), a boss (2-5) is arranged on the rotary hollow shaft (2-3), a limit hole (2-6) is arranged on the boss (2-5), the boss (2-5) is rotatably connected with a collecting cylinder (2-7), a collecting outlet (2-8) is arranged on the collecting cylinder (2-7), the collecting outlet (2-8) is connected with a sliding rod (2-19), the sliding rod (2-19) is connected with a perforated support (2-10) in a sliding way, the perforated support (2-10) is connected with a base (2-1), a hydraulic cylinder (2-11) is connected with the base (2-1), the hydraulic cylinder (2-11) is connected with a hydraulic cylinder fixing seat (2-12), the hydraulic cylinder fixing seat (2-12) is connected with a bearing seat A (2-2), the hydraulic cylinder (2-11) is connected with a hydraulic rod (2-13), the hydraulic rod (2-13) is connected with a movable seat (2-14) with an inclined plane, the movable seat (2-14) with the inclined plane is contacted with a friction seat (2-21) with the inclined plane, the friction seat (2-21) with the inclined plane is connected with the sliding rod (2-19), the pressing springs (2-20) are sleeved on the sliding rods (2-19), the pressing springs (2-20) are abutted against the hole-carrying supports (2-10) and the inclined-surface friction seats (2-21), the inclined-surface movable seats (2-14) are connected with the limiting rods (2-15), the limiting rods (2-15) are in sliding connection with the matching holes (2-22) arranged on the friction seats (2-18), the stepped rods (2-16) are in sliding connection with the inclined-surface movable seats (2-14), the supporting springs (2-17) are sleeved on the stepped rods (2-16), and two ends of the supporting springs are respectively connected to the inclined-surface movable seats (2-14) and the friction seats (2-18).

4. The centralized wastewater and waste gas treatment equipment according to claim 1, characterized in that: the water filtering mechanism (3) comprises a flanged water inlet pipe (3-1), a melt-in water tank (3-2), a communicating port (3-3), a connecting water pipe (3-4), a filter box (3-5), a flanged water outlet pipe (3-6), a bent arm support (3-7), a water blocking seat (3-8), a pull-up hydraulic rod (3-9), a pull-up hydraulic cylinder (3-10), a convex seat (3-11), a unthreaded hole I (3-12), a square plug (3-13), a filter seat (3-14), a filter cavity (3-15), a filter connecting pipe (3-16) and a filter water outlet pipe (3-17), the flanged water inlet pipe (3-1) is connected and communicated with the melt-in water tank (3-2), and the melt-in water tank (3-2) is provided with the communicating port (3-3), the communicating port (3-3) is communicated with the collecting outlet (2-8), the collecting cylinder (2-7) is connected with the melting water tank (3-2), the melting water tank (3-2) is communicated with the filtering tank (3-5) through a connecting water pipe (3-4), the filtering tank (3-5) is communicated with a flanged water outlet pipe (3-6), the bent arm support (3-7) is connected with the base (2-1), the bent arm support (3-7) is connected with the pulling hydraulic cylinder (3-10), the pulling hydraulic cylinder (3-10) is connected with the pulling hydraulic rod (3-9), the pulling hydraulic rod (3-9) is connected with the unthreaded hole I (3-12) arranged on the water blocking seat (3-8) in a sliding way, the water blocking seat (3-8) is connected with the filtering tank (3-5) in a sliding way, the water retaining seat (3-8) is provided with a convex seat (3-11), the convex seat (3-11) is connected with a filter seat (3-14), the filter seat (3-14) is connected with a filter box (3-5) in a sliding manner, a pull-up hydraulic rod (3-9) is connected with a square plug (3-13), the square plug (3-13) is connected with a filter cavity (3-15) arranged on the filter seat (3-14) in a sliding manner, the filter cavity (3-15) is respectively communicated with a filter connecting pipe (3-16) and a filter water outlet pipe (3-17), a water tank (3-2) is fused to be connected with a base (2-1), the filter box (3-5) is connected with the base (2-1), and a bent arm support (3-7) is connected with the base (2-1).

5. The centralized wastewater and waste gas treatment equipment according to claim 4, characterized in that: the length of the pull-up hydraulic rod (3-9) is greater than the height of the filter box (3-5).