CN218011490U - High-efficient multistage cylinder filter equipment - Google Patents
High-efficient multistage cylinder filter equipment Download PDFInfo
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- CN218011490U CN218011490U CN202221955547.3U CN202221955547U CN218011490U CN 218011490 U CN218011490 U CN 218011490U CN 202221955547 U CN202221955547 U CN 202221955547U CN 218011490 U CN218011490 U CN 218011490U
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- urceolus
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Abstract
The utility model discloses a high-efficient multistage cylinder filter equipment, including the dustcoat subassembly, the inside of dustcoat subassembly is equipped with urceolus and inner tube from outside to inside respectively, the internal distribution of inner tube has the spiral of slagging tap, install breakwater board assembly on the right side inner wall of inner tube, the inlet tube has been installed on the dustcoat subassembly on the positive right side of breakwater board assembly, install spray set directly over the urceolus on the inner wall of dustcoat subassembly, install the water catch bowl in one side of dustcoat subassembly in the upside inner wall of urceolus, the left side intercommunication of water catch bowl has filtration sediment bucket hard tube, the lower extreme of filtering sediment bucket hard tube is connected with filtration sediment bucket hose, the left side lower extreme of discharge gate is installed the sediment groove on the dustcoat subassembly, and debris that differ in size in this device can high-efficient simultaneous processing sewage are compared with traditional single processing technology, have greatly improved entire system's treatment efficiency and equipment compactness, and the structure is ingenious, is applicable to various sewage occasions.
Description
Technical Field
The utility model belongs to the technical field of waste water filters, specifically be a high-efficient multistage cylinder filter equipment.
Background
At present, some regions develop water resources without control and blindly, and simultaneously, the awareness of environmental protection is poor, so that surface water and underground water are polluted to different degrees. Therefore, the supply of fresh water with good quality originally in the ground is also seriously affected. In addition, with the rapid development of the industrial society, the cost of the fresh water source is higher and higher, which also forces the water resource recycling to be paid more and more attention by people. The micro-filtration device is a solid-liquid separation device which is used for micro-filtration of sewage and can be recycled.
The microstrainer in the existing market mainly adopts a single drum type, has poor filtering effect generally, and needs to block large impurities in sewage before entering the microstrainer, so that the problem of large occupied space resources due to the need of extra coarse separation is caused. If large impurities are isolated in advance, equipment is easily blocked and irreparable damage is caused to the equipment.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a: in order to solve the above-mentioned problems, a high-efficiency multistage cartridge type filtering apparatus is provided.
The utility model adopts the technical scheme as follows: the utility model provides a high-efficient multistage cartridge filter equipment, includes the dustcoat subassembly, the inside of dustcoat subassembly is equipped with urceolus and inner tube from outside to inside respectively, the internal distribution of inner tube has the spiral of slagging tap, install breakwater board subassembly on the right side inner wall of inner tube, the inlet tube has been installed on the breakwater board subassembly on the outer cover subassembly on the positive right side, install spray set directly over the urceolus on the inner wall of outer cover subassembly, install the water catch bowl in one side of outer cover subassembly in the upside inner wall of urceolus, the left side intercommunication of water catch bowl has filters sediment bucket hard tube, the lower extreme of filtering sediment bucket hard tube is connected with filters sediment bucket hose, the lower extreme of filtering sediment bucket hose is linked together with filtering the sediment bucket, the left end intercommunication of inner tube has the discharge gate, the left side lower extreme of discharge gate is installed the sediment groove on the outer cover subassembly.
In a preferred embodiment, the lower end of the outer cover assembly is mounted on the mounting frame, a plurality of outer cylinder carrier assemblies are mounted at the outer end of the outer cylinder on the mounting frame in a matching manner, the mounting frame is provided with the speed reducing motor, a driving gear at the output end of the speed reducing motor is meshed with a driven gear mounted at the outer end of the right side of the outer cylinder and mounted together, and a plurality of inner cylinder carrier assemblies are mounted at one end of the inner cylinder on the mounting frame in a matching manner.
In a preferred embodiment, the outer cylinder and the inner cylinder are fixedly connected together, a grid net is installed on the outer cylinder and the inner cylinder in a surrounding mode, the aperture of the grid net on the outer cylinder is smaller than that of the grid net on the inner cylinder, the left side of the outer cylinder is open, and the water collecting tank is provided with a slope with a lower left side and a higher right side.
In a preferred embodiment, one end of the spray component is connected with a backwashing pipe, the lower end of the backwashing pipe is connected with a backwashing pump installed on one side of the installation rack, the lower end of the slag filtering barrel is connected with a water storage tank under the installation rack through a connecting pipe, and one end of the backwashing pump is communicated with the water storage tank to form a backwashing port.
In a preferred embodiment, one side of the water storage tank is communicated with a water outlet and an emptying port, the filtering slag barrel comprises a slag barrel body, the upper end of the slag barrel body is movably provided with an installation cover through a hinge, and the installation cover is communicated with a filtering slag barrel hose.
In a preferred embodiment, a filter screen is installed inside the slag bucket body, and a plurality of high-pressure spray heads are uniformly communicated with the lower end of the spray assembly.
To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:
1. the utility model discloses in, sewage gets into the inner tube, the spiral of slagging tap can carry the debris spiral of grid net interception on the inner tube in the collection cinder notch, accomplish preliminary slagging-off operation, water enters into the urceolus through the inner tube whereabouts, can intercept small-size impurity, under the urceolus rotation, small-size impurity falls in the water catch bowl, and along with rivers flow in filter the sediment bucket, through the large-scale debris of above-mentioned flow and small-size impurity get into respective sediment bucket respectively, can high-efficient simultaneous processing waste aquatic debris not of uniform size, compare with traditional single processing technology, entire system's treatment effeciency has greatly been improved.
2. The utility model discloses in, small-size impurity adheres to in the inboard rotatory to top below spray assembly of urceolus wall, under high pressure nozzle's effect, can erode small-size impurity and fall the water catch bowl, can realize self-cleaning operation, has practiced thrift cost of maintenance, and wholly uses urceolus and interior section of thick bamboo combination together, and equipment is compact, and the structure is ingenious, has guaranteed holistic result of use.
Drawings
Fig. 1 is a front sectional structural view of the present invention;
fig. 2 is a schematic diagram of the top view structure of the present invention;
fig. 3 is a schematic diagram of the overall structure of the right view of the present invention;
FIG. 4 is a schematic diagram of the internal structure of the slag filtering barrel of the present invention;
fig. 5 is a schematic diagram of the overall left-side view structure of the present invention.
The mark in the figure is: 1-an outer cover component, 2-a spray component, 3-an outer cylinder, 4-a water collecting tank, 5-a hard filtering slag barrel pipe, 6-a soft filtering slag barrel pipe, 7-a slag discharge spiral, 8-a filtering slag barrel, 9-an inner cylinder, 10-a slag collecting tank, 11-an installation rack, 12-a backwashing pipe, 13-a driven gear, 14-a water inlet pipe, 15-a water retaining plate component, 16-a backwashing pump, 17-a backwashing port, 18-an inner cylinder carrier wheel component, 19-a water outlet, 20-a vent port, 21-an outer cylinder carrier wheel component and 22-a speed reducing motor.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.
Referring to fig. 1-5, a high-efficient multistage cylinder filter equipment, including dustcoat subassembly 1, the inside of dustcoat subassembly 1 is equipped with urceolus 3 and inner tube 9 respectively from outside to inside, the internal distribution of inner tube 9 has slag tap spiral 7, inner tube 9 pivoted in-process, can go out impurity along slag tap spiral 7 auger delivery, accomplish preliminary deslagging operation, install breakwater subassembly 15 on the right side inner wall of inner tube 9, under breakwater subassembly 15's effect, prevent effectively that rivers from flowing out inner tube 9 too soon, prolong sewage dwell time in inner tube 9, make debris better clear away, install inlet tube 14 on dustcoat subassembly 1 on the right side of breakwater subassembly 15, install spray assembly 2 on the inner wall of dustcoat subassembly 1 directly over urceolus 3.
Install water catch bowl 4 in the upside inner wall of urceolus 3 in one side of dustcoat subassembly 1, the left side intercommunication of water catch bowl 4 has filtration sediment bucket hard tube 5, and the lower extreme of filtering sediment bucket hard tube 5 is connected with filters sediment bucket hose 6, and the lower extreme of filtering sediment bucket hose 6 is linked together with filtering sediment bucket 8, and under the effect of gravity, water enters into urceolus 3 through the 9 whereabouts of inner tube, can intercept small-size impurity through urceolus 3. Under 3 rotation, small-size impurity is attached to 3 inboard rotations to top spray set 2 belows in the wall of urceolus, under high pressure nozzle's effect, small-size impurity erodees and falls into water catch bowl 4 to along with rivers flow in and filter slag bucket 8, accomplish the filtration treatment to small-size impurity, the left end intercommunication of inner tube 9 has the discharge gate, the left side lower extreme of discharge gate installs collection slag chute 10 on dustcoat subassembly 1, can collect inner tube 9 exhaust impurity through collection slag chute 10.
It should be noted that, the lower extreme of dustcoat subassembly 1 is installed on installation frame 11, a plurality of urceolus riding wheel subassemblies 21 are installed in the cooperation of the outer end of urceolus 3 on installation frame 11, install gear motor 22 on installation frame 11, it rotates to drive the driving gear through gear motor 22 and rotates, alright drive meshing urceolus 3 and inner tube 9 rotate, the driving gear of gear motor 22's output meshes with driven gear 13 of 3 right side outer ends installations of urceolus and installs together, a plurality of inner tube riding wheel subassemblies 18 are installed in the cooperation of the one end of inner tube 9 on installation frame 11, can play the guide effect to urceolus 3 and inner tube 9 respectively through urceolus riding wheel subassembly 21 and inner tube riding wheel subassembly 18, rotational stability has been guaranteed.
It should be noted that, the outer cylinder 3 and the inner cylinder 9 are fixedly connected together, the grating net is installed around the outer cylinder 3 and the inner cylinder 9, the aperture of the grating net on the outer cylinder 3 is smaller than that of the grating net on the inner cylinder 9, so that large-sized impurities and small-sized impurities can be separated, the left side of the outer cylinder 3 is open, the water collecting tank 4 is provided with a slope with a lower left part and a higher right part, so that water and impurities after flushing can flow into the filtering slag barrel 8 along the slope, and filtering treatment of sewage and impurities is completed.
It should be noted that one end of the spray assembly 2 is connected with the backwash pipe 12, the lower end of the backwash pipe 12 is connected with the backwash pump 16 installed on one side of the installation frame 11, the lower end of the slag filtering barrel 8 is connected with the water storage tank under the installation frame 11 through a connecting pipe, one end of the backwash pump 16 is communicated with the water storage tank to form a backwash port 17, the backwash pump 16 works to pump out water in the water storage tank upwards and discharge the water into the spray assembly 2, and the outer barrel 3 can be washed.
It should be noted that, one side intercommunication of water storage tank has outlet 19 and evacuation mouth 20, can be with the log raft after filtering through the outlet 19 that sets up, it includes the sediment bucket body to filter sediment bucket 8, there is the installation lid upper end of sediment bucket body through hinge movable mounting, upwards open the installation lid, alright take out the filter assembly of inside and clear up, when upwards opening the installation lid, it can have the elasticity to filter sediment bucket hose 6, need not dismantle filter sediment bucket hose 6, holistic result of use has been guaranteed, the installation lid is linked together with filter sediment bucket hose 6.
It should be noted that, the internally mounted of sediment bucket body has the filter screen, can carry out filtration treatment with the water of draining into through the inside filter screen that sets up of sediment bucket body, separates small-size impurity and water, and the even intercommunication of lower extreme of spray set 2 has a plurality of high pressure nozzle, and under high pressure nozzle's effect, small-size impurity erodes and falls into water catch bowl 4, accomplishes the automatic clearance to urceolus 3.
The working principle is as follows: sewage firstly enters the equipment through the water inlet pipe 14, under the effect of the water baffle component 15, the inner barrel 9 which can effectively prevent water from flowing out too fast is prolonged in the inner barrel 9, so that sundries are better cleared away, the sewage enters the inner barrel 9, the inner barrel 9 is provided with the slag tapping screw 7, under the rotation drive of the speed reducing motor 22, the slag tapping screw 7 can convey the sundries intercepted by the grid mesh on the inner barrel 9 to the slag collecting groove 10, and the preliminary slag removing operation is completed.
Meanwhile, under the action of gravity, water falls through the inner cylinder 9 and enters the outer cylinder 3, and small impurities can be intercepted through the outer cylinder 3. Under 3 rotation effects of urceolus, small-size impurity is attached to 3 inboard rotations to top spray set 2 belows in the wall of urceolus, and under high pressure nozzle's effect, small-size impurity erodees and falls into water catch bowl 4 to along with rivers flow in filter residue bucket 8, through the large-scale debris of above-mentioned flow and small-size impurity get into respective residue bucket respectively, artifical regular cleaning is collected.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.
Claims (6)
1. A high efficiency multistage cartridge filter apparatus comprising a housing assembly (1), characterized in that: the inside of dustcoat subassembly (1) is equipped with urceolus (3) and inner tube (9) from outside to inside respectively, the inside distribution of inner tube (9) has slag tap spiral (7), install breakwater board subassembly (15) on the right side inner wall of inner tube (9), install inlet tube (14) on dustcoat subassembly (1) on the positive right side of breakwater board subassembly (15), install spray assembly (2) directly over urceolus (3) on the inner wall of dustcoat subassembly (1), water catch bowl (4) are installed to one side in dustcoat subassembly (1) in the upside inner wall of urceolus (3), the left side intercommunication of water catch bowl (4) has filtration slag ladle hard tube (5), the lower extreme of filtering slag ladle hard tube (5) is connected with and filters slag ladle hose (6), the lower extreme of filtering slag ladle hose (6) is linked together with filtration slag ladle (8), the left end intercommunication of inner tube (9) has the discharge gate, the left side lower extreme of discharge gate installs collection groove (10) on dustcoat subassembly (1).
2. A high efficiency multistage cartridge filter assembly as recited in claim 1, wherein: the lower extreme of dustcoat subassembly (1) is installed on installation frame (11), a plurality of urceolus riding wheel subassemblies (21) are installed in the outer end cooperation of urceolus (3) on installation frame (11), install gear motor (22) on installation frame (11), the driving gear of the output of gear motor (22) is in the same place with driven gear (13) meshing installation of urceolus (3) right side outer end, a plurality of inner tube riding wheel subassemblies (18) are installed in the cooperation of the one end of inner tube (9) on installation frame (11).
3. A high efficiency, multi-stage cartridge filter apparatus as recited in claim 1, wherein: urceolus (3) are in the same place with inner tube (9) fixed connection, it has the grid net to surround to install on urceolus (3) and inner tube (9), the aperture of grid net is less than the aperture of inner tube (9) grid net on urceolus (3), urceolus (3) left side is the open type, water catch bowl (4) are equipped with the slope of low right height in a left side.
4. A high efficiency multistage cartridge filter assembly as recited in claim 2, wherein: one end of the spraying assembly (2) is connected with a backwashing pipe (12), the lower end of the backwashing pipe (12) is connected with a backwashing pump (16) installed on one side of the installation rack (11), the lower end of the slag filtering barrel (8) is connected with a water storage tank below the installation rack (11) through a connecting pipe, and one end of the backwashing pump (16) is communicated with the water storage tank to form a backwashing port (17).
5. A high efficiency multistage cartridge filter assembly as recited in claim 4, further comprising: one side of the water storage tank is communicated with a water outlet (19) and an emptying port (20), the filtering slag barrel (8) comprises a slag barrel body, the upper end of the slag barrel body is movably provided with an installation cover through a hinge, and the installation cover is communicated with the filtering slag barrel hose (6).
6. A high efficiency, multi-stage cartridge filter apparatus as recited in claim 1, wherein: the inside of sediment bucket body is installed the filter screen, the even intercommunication of lower extreme of spray assembly (2) has a plurality of high pressure nozzle.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221955547.3U CN218011490U (en) | 2022-07-27 | 2022-07-27 | High-efficient multistage cylinder filter equipment |
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Application Number | Priority Date | Filing Date | Title |
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CN202221955547.3U CN218011490U (en) | 2022-07-27 | 2022-07-27 | High-efficient multistage cylinder filter equipment |
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CN218011490U true CN218011490U (en) | 2022-12-13 |
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CN202221955547.3U Active CN218011490U (en) | 2022-07-27 | 2022-07-27 | High-efficient multistage cylinder filter equipment |
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2022
- 2022-07-27 CN CN202221955547.3U patent/CN218011490U/en active Active
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