CN218011255U - Secondary filtration reciprocating vibration cleaning and filtering equipment - Google Patents

Abstract

The utility model discloses a second-stage filtering reciprocating vibration cleaning and filtering device, which comprises a device body, a body overturning and vibrating device, a second-stage filtering baffle plate, a water inlet component and a drainage component; the water inlet assembly and the water discharge assembly are respectively and fixedly connected to the left end and the right end of the equipment body, one end of the water inlet assembly and one end of the water discharge assembly respectively extend into the equipment body through the two ends of the equipment body, and the other ends of the water inlet assembly and the water discharge assembly are respectively connected with a bearing block seat; the inner wall of the bottom of the equipment body is fixedly connected with a secondary filtering partition plate which extends vertically and upwards, the secondary filtering partition plate divides the area below the axis of the equipment body into a primary filtering area and a secondary filtering area, and the primary filtering area and the secondary filtering area are filled with filtering materials; the water inlet assembly is connected with the body overturning and vibrating device. The advantages are that: a filtration equipment can accomplish the secondary filter of water, can reciprocate to vibrate the washing to the equipment body simultaneously, guarantees that the filter material does not conglomerate for a long time and does not harden, guarantees the long-term steady operation of equipment.

Description

Secondary filtration reciprocating vibration cleaning and filtering equipment

Technical Field

The utility model relates to a filtration equipment technical field especially relates to a reciprocal shock of secondary filter washs filtration equipment.

Background

At present, the traditional filtering equipment in China has the following defects:

1) The water consumption is large, and the cleaning is needed once after 24 hours of operation, and the cleaning is needed to be carried out for more than one hour once.

2) The power consumption is large, and a large water pump is required to be started to flush each time of cleaning.

3) The labor intensity is high when the operation is multiple, and the number of operating personnel is large.

4) The washing is not thorough, the filter material is agglomerated and hardened in a short time, and the output of the equipment is reduced.

5) The filter material in the equipment has poor uniformity and layering, which causes bias flow of water in the equipment, and the quality of the discharged water of the filter generating the bias flow is degraded to a certain extent.

6) The filter material is easy to agglomerate and harden, so that the filter material needs to be frequently replaced, and the service cycle of the filter material is short.

7) High operation cost and maintenance cost

8) The traditional equipment can not meet the requirements of energy conservation and emission reduction.

Therefore, a new filtering apparatus is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a filtration of second grade vibrates washing filtration equipment that reciprocates to solve the aforementioned problem that exists among the prior art.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

a secondary filtering reciprocating vibration cleaning filtering device comprises a device body, a body overturning vibration device, a secondary filtering partition plate, a water inlet assembly and a water drainage assembly; the device body is hollow and horizontally arranged, the water inlet assembly and the water discharge assembly are respectively and fixedly connected to two ends of the device body, one end of the water inlet assembly and one end of the water discharge assembly respectively extend into the device body through the left end and the right end of the device body, and the other end of the water inlet assembly and the other end of the water discharge assembly are respectively connected with a bearing block seat; the water inlet assembly is characterized in that a vertically and upwardly extending secondary filtering partition plate is fixedly connected to the inner wall of the bottom of the equipment body, the extending end of the secondary filtering partition plate is located below the axis of the equipment body, the region below the axis of the equipment body is divided into a left primary filtering region and a right secondary filtering region which are adjacent by the secondary filtering partition plate, one end of the water inlet assembly extends in the primary filtering region, one end of the water outlet assembly extends in the secondary filtering region, and the primary filtering region and the secondary filtering region are filled with filter materials; the water inlet assembly is connected with the body overturning and vibrating device, so that the equipment body swings back and forth under the driving of the body overturning and vibrating device.

Preferably, the water inlet assembly comprises a water inlet main pipe and a water inlet branch pipe; the female pipe of intaking is the L form, the female pipe of intaking with the one end fixed connection of equipment body, the one end of the female pipe of intaking with the bearing bush seat links to each other, the other end warp of the female pipe of intaking the one end of equipment body extends at the level filtering district, and this end top-down interval connection has a plurality of branch pipes of intaking in proper order, the branch pipe of intaking with the female pipe intercommunication of intaking.

Preferably, the water inlet assembly comprises a drain main pipe and a drain branch pipe; the drainage main pipe is L-shaped, the drainage main pipe is fixedly connected with one end of the equipment body, one end of the drainage main pipe is connected with the bearing bush seat, the other end of the drainage main pipe extends to the secondary filtering area through one end of the equipment body, a plurality of drainage branch pipes are sequentially connected from top to bottom at intervals at the end, and the drainage branch pipes are communicated with the drainage main pipe.

Preferably, the uppermost inlet branch pipe and the uppermost outlet branch pipe are located below the extended end of the secondary filtering partition plate.

Preferably, the length of the water inlet branch pipe is smaller than that of the water discharge branch pipe.

Preferably, the body overturning and oscillating device comprises a variable speed motor, a driving variable speed gear and a driven variable speed gear, the driven variable speed gear is fixedly connected to one end of the water inlet main pipe connected with the bearing bush seat, the driving variable speed gear is fixedly connected to the output end of the variable speed motor, and the driving variable speed gear is meshed with the driven variable speed gear; the variable speed motor rotates forwards and backwards, and drives the driven variable speed gear to rotate through the driving variable speed gear so as to drive the water inlet main pipe to rotate, so that the equipment body swings forwards or backwards in a certain range.

Preferably, the top of the equipment body is provided with an exhaust valve and a manhole door which are communicated with the inside of the equipment body.

Preferably, the equipment body is provided with a pressure gauge.

Preferably, the reciprocal shock of secondary filter washs filtration equipment still includes the equipment support, the equipment support includes the lower carriage that the level set up and the collateral branch frame of vertical setting, and the both ends of lower carriage are provided with its and the collateral branch frame that upwards extends of a perpendicular to respectively, the equipment body is located the top of horizontal stand, the subassembly of intaking at equipment body both ends links to each other with two collateral branch framves through a bearing bush seat respectively with the drainage subassembly.

The utility model has the advantages that: 1. the two-stage filtration water process that traditional filter needs two series operation could accomplish, the utility model discloses the secondary filter of water can be accomplished to one filter equipment, can reciprocate to vibrate the washing to the equipment body simultaneously, guarantees that the filter material does not conglomerate for a long time and does not harden, guarantees the long-term steady operation of equipment. 2. Suspended matters, floccules, metal oxides, dissolved partial salt impurities, and tiny silt and sludge particles in the water are effectively removed through secondary filtration. 3. The utility model discloses equipment is applicable to the filtration purification of various quality of water, is applicable to city water works, cities and towns country water works water station running water and purifies, also is applicable to the filtration purification of river water, lake water, reservoir water, groundwater, swimming pool water and various sewage. The device is environment-friendly equipment with wide application range, high efficiency and energy saving. 4. The utility model discloses equipment satisfies each item function of water purification process equipment, moreover water conservation, economize on electricity, save the manual work, reduce the operation, save the filter material, save the maintenance cost, accord with energy saving and emission reduction policy.

Drawings

FIG. 1 is a front view of a filter apparatus in an embodiment of the present invention;

figure 2 is a side view of a filtration apparatus in an embodiment of the invention.

In the figure: 1. an apparatus body; 2. a water inlet main pipe; 3. a water inlet branch pipe; 4. a main drain pipe; 5. a drain branch pipe; 6. a bearing bush seat; 7. an equipment support; 8. a secondary filtering partition plate; 9. an exhaust valve; 10. a manhole door; 11. a variable speed motor; 12. a drive transmission gear; 13. a driven speed change gear;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 and fig. 2, in the present embodiment, a two-stage filtering, reciprocating shaking, cleaning and filtering apparatus is provided, which is characterized in that: comprises an equipment body 1, a body overturning and vibrating device, a secondary filtering clapboard 8, a water inlet component and a water drainage component; the inside of the equipment body 1 is hollow and horizontally arranged, the water inlet assembly and the water discharge assembly are respectively and fixedly connected to the left end and the right end of the equipment body 1, one end of the water inlet assembly and one end of the water discharge assembly respectively extend into the equipment body 1 through the left end and the right end of the equipment body 1, and the other end of the water inlet assembly and the other end of the water discharge assembly are respectively connected with a bearing block seat 6; a secondary filtering partition plate 8 which extends vertically and upwards is fixedly connected to the inner wall of the bottom of the equipment body 1, the extending end of the secondary filtering partition plate 8 is positioned below the axis of the equipment body 1, the region below the axis of the equipment body 1 is divided into a left primary filtering region and a right secondary filtering region which are adjacent by the secondary filtering partition plate 8, one end of the water inlet assembly extends in the primary filtering region, one end of the water drainage assembly extends in the secondary filtering region, and the primary filtering region and the secondary filtering region are filled with filter materials; the water inlet assembly is connected with the body overturning and vibrating device, so that the equipment body 1 swings back and forth under the driving of the body overturning and vibrating device.

The area below the axis of the equipment body 1 is divided into a left filtering area and a right filtering area by a secondary filtering clapboard 8, the left filtering area and the right filtering area are respectively a primary filtering area and a secondary filtering area, the water inlet assembly is positioned in the primary filtering area, and the water discharge assembly is positioned in the secondary filtering area; the filtering area is filled with filtering materials. The water of prefiltering gets into the primary filtration district through the subassembly that intakes, and filter material in the primary filtration district is filtered later and is got into the secondary filtration district by the dilatation district slowing down the velocity of flow of 1 axis top of equipment body gradually, passes through drainage subassembly discharge equipment body 1 in the secondary filtration district after filtering, carries the header tank storage. The operation of the filtering equipment is fully automatically controlled by a PLC.

In this embodiment, the water inlet assembly comprises a water inlet main pipe 2 and a water inlet branch pipe 3; female pipe 2 of intaking is the L form, female pipe 2 of intaking with the one end fixed connection of equipment body 1, the one end of female pipe 2 of intaking with bearing bush seat 6 links to each other, the other end warp of female pipe 2 of intaking the one end of equipment body 1 extends at the level filtering district, and this end top-down interval connection has a plurality of branch pipes 3 of intaking in proper order, branch pipe 3 of intaking with female pipe 2 intercommunication of intaking.

The water inlet assembly comprises a main drainage pipe 4 and a branch drainage pipe 5; the main drainage pipe 4 is L-shaped, the main drainage pipe 4 is fixedly connected with one end of the equipment body 1, one end of the main drainage pipe 4 is connected with the bearing block seat 6, the other end of the main drainage pipe 4 extends in the secondary filtering area through one end of the equipment body 1, a plurality of drainage branch pipes 5 are sequentially connected at intervals from top to bottom at the end, and the drainage branch pipes 5 are communicated with the main drainage pipe 4.

The one end that female pipe 2 of intaking links to each other with the axle tile seat 6 links to each other through the flange with the device that provides the prefiltration water, inside prefiltration water got into equipment body 1 through female pipe 2 of intaking to get into the level filtering district through intake branch pipe 3, water after filtration through level filtering district and second grade filtering district gets into the female pipe 4 of drainage through drainage branch pipe 5, through the female pipe 4 discharge equipment body 1 of drainage again, the female pipe 4 of drainage links to each other with the header tank through the flange with the one end that the axle tile seat 6 links to each other, water after the filtration completion gets into the header tank through the female pipe 4 of drainage.

The water inlet branch pipe 3 is connected with the water inlet main pipe 2 through a flange, so that the installation and the disassembly are convenient; the water discharge branch pipe 5 is connected with the water beating main pipe through a flange, so that the installation and the disassembly are convenient.

In this embodiment, referring to fig. 2, the uppermost inlet branch pipe and the uppermost outlet branch pipe are located below the extended end of the secondary filtering baffle. Therefore, the pre-filtered water can be ensured to be fully filtered by the filter material in the primary filtering area and then enter the secondary filtering area for filtering, and the condition that the water directly enters the secondary filtering area without being filtered by the primary filtering area is avoided. The length of the water inlet branch pipe 3 is smaller than that of the water outlet branch pipe 5.

In this embodiment, the body turning oscillating device includes a variable speed motor 11, a driving variable speed gear 12 and a driven variable speed gear 13, the driven variable speed gear 13 is fixedly connected to one end of the water inlet main pipe 2 connected to the bearing bush seat 6, the driving variable speed gear 12 is fixedly connected to an output end of the variable speed motor 11, and the driving variable speed gear 12 is engaged with the driven variable speed gear 13; the variable speed motor 11 rotates forward and backward, and drives the driven variable speed gear 13 to rotate through the driving variable speed gear 12, so as to drive the water inlet main pipe 2 to rotate, and therefore the equipment body 1 swings forwards or backwards in a certain range. The angle that body upset oscillation device drove equipment body 1 fore-and-aft swing can be selected so that better satisfy actual demand according to actual conditions, generally sets up to respectively swing 64 forward and backward.

Because the filtering equipment needs to be washed forwards and backwards after running for a certain time, otherwise, the filter material is caked and hardened and cannot run. When the filter equipment is washed forward and backwashed, the body overturning and oscillating device is controlled by the PLC, so that the equipment body 1 reciprocates back and forth for 128-degree reciprocating oscillating cleaning. The filter material in the equipment body 1 vibrates through reciprocal rolling, has broken up the filter material that the knot in advance hardened in advance, makes the filter material that adheres to on the inside wall of equipment body 1 all drop off, ensures that the attachment and the whole corners on filter material surface thoroughly wash away in the equipment body 1. The cleaned filter materials are arranged and combined in a new and orderly way to fill the filtering area, thereby achieving the purposes of preventing the filter materials from caking and hardening, preventing the equipment body 1 from generating bias flow and keeping the quality of the outlet water stable and up to the standard.

In this embodiment, the top of the device body 1 is provided with an exhaust valve 9 and a manhole door 10 which are communicated with the inside of the device body. The equipment body 1 is provided with a pressure gauge. The exhaust valve 9 is used for exhausting redundant gas in the device body 1 to ensure enough pressure in the device body; the manhole door 10 is used for allowing a specific person to enter the interior of the equipment body 1 to overhaul or replace internal components; the pressure gauge is used for detecting the pressure inside the device body 1 and keeping the pressure within a certain range.

In this embodiment, the reciprocal shock of secondary filter washs filtration equipment still includes equipment support 7, equipment support 7 includes the lower carriage that the level set up and the collateral branch frame of vertical setting, and the both ends of lower carriage are provided with its and upwards extended collateral branch frame of a perpendicular to respectively, equipment body 1 is located the top of horizontal stand, the subassembly of intaking and the drainage assembly at 1 both ends of equipment body link to each other with two collateral branch frames through a bearing bush seat 6 respectively.

Install equipment body 1 on equipment support 7, improve its wholeness, be convenient for remove.

In this embodiment, filtration equipment has compensatied the not enough of traditional filter, specific following advantage:

1. the equipment is cleaned once in 3-4 days, and the cleaning water is saved by more than 70% compared with the traditional filter.

2. The equipment is cleaned once in 3-4 days, the cleaning frequency is low, and the cleaning power consumption is reduced by more than 70%.

3. The equipment has less operation and low labor intensity, and the operators on duty can be reduced by more than 50%.

4. Thorough cleaning, stable yield and stable water quality.

5. The filter material does not harden, the water flow of the filter layer in the equipment body 1 does not flow bias, and the service cycle of the filter material is long.

6. Low operation cost, low maintenance cost and long overhaul period.

The filtering equipment saves electricity, water and manpower, has good effluent quality, saves filter materials, has one time of service cycle of the filter materials, saves investment (the equipment does not need to design and install an independent secondary filtering system), and meets the requirements of energy conservation and emission reduction. The drinking water treated by the device can completely reach the standard GB5749-2006 sanitary Standard for Drinking Water of the people's republic of China.

Through adopting the utility model discloses an above-mentioned technical scheme has obtained following profitable effect:

the utility model provides a filtration equipment is washd in reciprocal shock of second grade filtration, traditional filter need two series connection operation could accomplish the second grade filtration water process, the utility model discloses filtration equipment one can accomplish the secondary filter of water, can reciprocate to vibrate the washing to the equipment body simultaneously, guarantees that the filter material does not conglomerate for a long time and does not harden, guarantees the long-term steady operation of equipment. Suspended matters, floccules, metal oxides, dissolved partial salt impurities, and tiny silt and sludge particles in the water are effectively removed through secondary filtration. The utility model discloses equipment is applicable to the filtration purification of various quality of water, is applicable to city water works, cities and towns country water factory water station running water and purifies, also is applicable to the filtration purification of river water, lake water, reservoir water, groundwater, swimming pool water and various sewage. The device is environment-friendly equipment with wide application range, high efficiency and energy saving. The utility model discloses equipment satisfies each item function of water purification process equipment, moreover water conservation, economize on electricity, save the manual work, reduce the operation, save the filter material, save the maintenance cost, accord with energy saving and emission reduction policy.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims (9)

1. The utility model provides a filtration equipment is washd in reciprocal shock of secondary filter which characterized in that: the device comprises an equipment body, a body overturning and vibrating device, a secondary filtering partition plate, a water inlet assembly and a water drainage assembly; the device comprises a device body, a water inlet assembly, a water drainage assembly, a bearing bush seat and a water outlet assembly, wherein the device body is hollow and horizontally arranged, the water inlet assembly and the water drainage assembly are respectively fixedly connected to two ends of the device body, one end of the water inlet assembly and one end of the water drainage assembly respectively extend into the device body through the left end and the right end of the device body, and the other end of the water inlet assembly and the other end of the water drainage assembly are respectively connected with the bearing bush seat; the inner wall of the bottom of the equipment body is fixedly connected with a secondary filtering partition plate which extends vertically and upwards, the extending end of the secondary filtering partition plate is positioned below the axis of the equipment body, the secondary filtering partition plate divides the area below the axis of the equipment body into a primary filtering area and a secondary filtering area which are adjacent left and right, one end of the water inlet assembly extends in the primary filtering area, one end of the water discharge assembly extends in the secondary filtering area, and the primary filtering area and the secondary filtering area are filled with filter materials; the water inlet assembly is connected with the body overturning and vibrating device, so that the equipment body swings back and forth under the driving of the body overturning and vibrating device.

2. The secondary filtration reciprocating oscillation cleaning and filtering equipment of claim 1, wherein: the water inlet assembly comprises a water inlet main pipe and a water inlet branch pipe; the female pipe of intaking is the L form, the female pipe of intaking with the one end fixed connection of equipment body, the one end of the female pipe of intaking with the bearing bush seat links to each other, the other end warp of the female pipe of intaking the one end of equipment body extends at the primary filter area, and this end top-down interval connection has a plurality of branch pipes of intaking in proper order, the branch pipe of intaking with the female pipe intercommunication of intaking.

3. The secondary filtration reciprocating vibration cleaning and filtering equipment of claim 2, wherein: the water inlet assembly comprises a main drainage pipe and a branch drainage pipe; the drainage main pipe is L-shaped, the drainage main pipe is fixedly connected with one end of the equipment body, one end of the drainage main pipe is connected with the bearing bush seat, the other end of the drainage main pipe extends to the secondary filtering area through one end of the equipment body, a plurality of drainage branch pipes are sequentially connected from top to bottom at intervals at the end, and the drainage branch pipes are communicated with the drainage main pipe.

4. The secondary filtration reciprocating vibration cleaning and filtering equipment of claim 3, wherein: the water inlet branch pipe and the water outlet branch pipe which are positioned at the uppermost part are positioned below the extending end of the secondary filtering clapboard.

5. The secondary filtration reciprocating oscillation cleaning and filtering device of claim 3, wherein: the length of the water inlet branch pipe is smaller than that of the water drainage branch pipe.

6. The secondary filtration reciprocating oscillation cleaning and filtering device of claim 3, wherein: the body overturning and oscillating device comprises a variable speed motor, a driving variable speed gear and a driven variable speed gear, wherein the driven variable speed gear is fixedly connected to one end of the water inlet main pipe connected with the bearing block seat, the driving variable speed gear is fixedly connected to the output end of the variable speed motor, and the driving variable speed gear is meshed with the driven variable speed gear; the variable speed motor rotates forwards and backwards, and drives the driven variable speed gear to rotate through the driving variable speed gear so as to drive the water inlet main pipe to rotate, so that the equipment body swings forwards or backwards in a certain range.

7. The secondary filtration reciprocating vibration cleaning and filtering equipment of claim 1, wherein: the top of the equipment body is provided with an exhaust valve and a manhole door which are communicated with the inside of the equipment body.

8. The secondary filtration reciprocating vibration cleaning and filtering equipment of claim 1, wherein: the equipment body is provided with a pressure gauge.

9. The secondary filtration reciprocating vibration cleaning and filtering equipment of claim 1, wherein: secondary filter vibrates washing filtration equipment reciprocal still includes the equipment support, the equipment support includes the lower carriage of level setting and the collateral branch frame of vertical setting, and the both ends of lower carriage are provided with its and the collateral branch frame that upwards extends of a perpendicular to respectively, the equipment body is located the top of lower carriage, the subassembly of intaking and the drainage subassembly at equipment body both ends link to each other with two collateral branch frames through a bearing bush seat respectively.

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