CN216584512U - Water treatment equipment with hoisting mechanism and multistage water treatment system - Google Patents

Abstract

The utility model is suitable for the field of sewage treatment, and provides a water treatment device with a hoisting mechanism and a multistage water treatment system, which comprise a bracket, an outer barrel assembly, a filter barrel assembly and a lifting mechanism; the outer barrel assembly comprises an outer barrel arranged on the bracket; the bottom of the outer barrel is provided with a sewage valve or a sewage pump; the filter barrel assembly comprises a filter barrel and a lifting platform, the lifting platform is slidably mounted on the support, and a plurality of filter holes are formed in the barrel wall of the filter barrel; the lifting mechanism comprises a lifting driving motor arranged on the bracket, a rotating shaft of the lifting driving motor is in transmission connection with the pay-off roller, and two ends of the pay-off roller are respectively inserted into two bearings on the bracket; a hoisting rope is wound and connected on the pay-off roller; the device has the advantages of low cost, convenient maintenance and better balance and stability of equipment.

Description

Water treatment equipment with hoisting mechanism and multistage water treatment system

Technical Field

The utility model relates to the field of sewage treatment, in particular to a water treatment device with a hoisting mechanism and a multistage water treatment system.

Background

An invention patent with the patent number of CN303021997661.3 discloses an intelligent water treatment device and an intelligent water treatment system developed by the applicant. The intelligent water treatment device takes the filter element as an inner barrel and is arranged in an outer barrel (container), and an electric control lifting driving mechanism is arranged to drive the filter element to lift; the electrically controlled lifting driving mechanism is specifically an electric lifting rod in the embodiment, the number of the electric lifting rods determines the stability of the filter element during lifting, and the number of the electric lifting rods is at least two, preferably four.

The applicant discovered the drawbacks of this design during the subsequent iterative design of the product. Firstly, in the aspects of programming and assembly, the four lifting rods need to be maintained to lift simultaneously, which is troublesome, and in the actual operation, as long as the lifting speed of one electric lifting rod deviates, the filter element is unstable; secondly, the price of the electric lifting rod for supporting the filter element with larger volume to lift is not cheap, and the sum of the costs of the four electric lifting rods needs tens of thousands of yuan; again, the failure rate of motorized lift pins is still relatively high, and the applicant is therefore interested in making further improvements in this regard.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water treatment device with a hoisting mechanism and a multi-stage water treatment system, which are improved and designed on the basis of the existing device; on the premise of retaining the advantages of high purification efficiency and fine water treatment of the original device, the device is further improved, and the failure rate and the cost are expected to be reduced.

In order to realize the purpose, the utility model adopts the following technical scheme to realize the purpose:

a water treatment device with a hoisting mechanism comprises a bracket, an outer barrel assembly, a filter barrel assembly and a lifting mechanism;

the outer tub assembly comprises an outer tub; a sewage discharge valve or a sewage discharge pump is arranged at the bottom of the outer barrel; the outer barrel can be wound with a liquid inlet pipe for introducing water to be treated into the outer barrel, or the liquid inlet pipe and the outer barrel can be separately arranged;

the bracket is arranged on the outer barrel; or the bracket is arranged outside the outer barrel;

the filter barrel assembly comprises a filter barrel and a lifting platform, the lifting platform is slidably mounted on a support, the filter barrel is mounted on the lifting platform, and a plurality of filter holes are formed in the barrel wall of the filter barrel;

the lifting mechanism comprises a lifting driving motor arranged on the support, a rotating shaft of the lifting driving motor is in transmission connection with the pay-off roller, and two ends of the pay-off roller are respectively inserted into two bearings on the support; a hoisting rope is wound and connected on the pay-off roller;

when the filter vat subassembly goes up and down, the jack-up rope goes out the rope from the unwrapping wire roller, and lug connection lift platform or through frock hoisting accessory connection lift platform, lift driving motor starts to drive the filter vat and rises or make the filter vat fall into in the outer bucket.

Further, the bracket comprises at least two side rods which are vertically arranged, and guide rails are arranged on the side rods close to the inner side of the supporting platform; the lifting platform comprises a base plate; the side edge of the substrate is provided with L-shaped steel in a welding mode or a screwing mode, and one surface of the L-shaped steel is provided with a guide rail sliding block; the lifting platform is connected with the guide rail through the guide rail sliding block in a sliding manner. On one hand, the guide rail sliding block mechanism is used for improving the stability of the device and enabling the filter barrel component part to vertically and stably fall into the outer barrel component along the guide rail; on the other hand is also the spacing to the lauter tub subassembly, because the slider of setting on lift platform is hugged closely to the guide rail, consequently the guide rail is in fact spacing to the lauter tub subassembly on the horizontal direction, makes the lauter tub subassembly remain the position directly over outer bucket subassembly all the time.

Further, the stand includes a frame; the frame includes legs supporting a unitary support; the outer barrel is arranged on the frame, the side rods are fixedly connected with the supporting legs through connecting pieces, and the connecting pieces can be bolts, bolts or ropes; the two are connected together in a mode of easy disassembly such as bolt pin clamping, screw connection, rope binding and the like so as to improve the overall stability of the device.

Furthermore, a water pumping pipe used for pumping water in the filter vat is arranged in the filter vat, and one end of the water pumping pipe is connected with a liquid pump.

Furthermore, the filter vat is a rotary filter vat with a rotating shaft, the rotating shaft is inserted on a base plate of the lifting platform through a bearing, and the rotating shaft is directly connected with the output end of the rotating motor or meshed with a main gear arranged on the rotating shaft of the rotating motor through a gear transmission mechanism.

Further, the tool hoisting part comprises a fixed block, a hoisting ring and a section of connecting rope; at least one fixing block is arranged; when the number of the fixed blocks is multiple, the fixed blocks are symmetrically arranged by taking the rotating shaft as a central shaft;

the fixed block is connected with a lifting ring through a connecting rope; the hoisting rope is connected with the hoisting ring.

Further, a sleeve is vertically arranged around the outer barrel, a blind hole is formed in the sleeve in a hollowed mode, a lifting rod is installed in the blind hole in a sliding mode, and the upper end of the lifting rod is connected with the lifting platform.

A multi-stage water treatment system comprises water treatment equipment with a hoisting mechanism, wherein the water treatment equipment with the hoisting mechanism is the water treatment equipment with the hoisting mechanism; the device also comprises a DTRO module, and a coarse filtration module is optionally arranged between a clear liquid outlet of the water treatment equipment with the hoisting mechanism and the DTRO module; the coarse filtration module is at least one of a quartz sand filter, an activated carbon filter, a bag filter and a ceramic membrane filter.

Further, the device also comprises a three-dimensional electrolysis module; the three-dimensional electrolysis module is used for further purifying the concentrated solution output by the DTRO module.

After sewage is flocculated and filtered by adopting water treatment equipment with a hoisting mechanism, various indexes (such as COD (chemical oxygen demand), ammonia nitrogen and the like) of the sewage are greatly reduced, and the sewage can reach a water purification standard by using the subsequent DTRO reverse osmosis and three-dimensional electrolysis treatment, so that the traditional biochemical process is integrally replaced, and compared with the traditional biochemical process, the system is not controllable, is greatly influenced by various factors such as environment, input digestive bacteria amount and the like, is completely controllable, and can realize all-weather operation and completely reliable standard discharge because the three-dimensional electrolysis technology is almost irrelevant to the environment temperature;

performing reverse osmosis on flocculated and filtered sewage through a DTRO module to separate the sewage into penetrating fluid and concentrated solution needing further treatment; therefore, the amount of the concentrated solution to be treated by the three-dimensional electrolysis module is greatly reduced (the concentrated solution after reverse osmosis is about 10% -30% of the amount of the sewage before), so that the sewage treatment efficiency is improved, and the energy consumption is reduced; in addition, the three-dimensional electrolysis technology is particularly suitable for purifying concentrated solution.

The utility model has the beneficial effects that:

1. the device cost is reduced, the maintenance is convenient, and the maintenance cost is lower;

the device adopts the motor to replace an electric lifting rod in the original equipment, and the expenditure of tens of thousands of yuan is saved in the aspect of part cost; the lifting mechanism and the outer barrel assembly are separately arranged, so that the lifting mechanism is convenient to maintain in the subsequent maintenance process; in addition, the motor serving as a power source of the lifting mechanism has low failure rate and low maintenance cost.

2. The device has good balance and stability;

the lifting mechanism and the bracket are fixedly connected in a welding, gluing and other modes, or are connected together in a quick-detachable mode such as a latch column clamping, a screw joint, a rope binding and the like, so as to improve the overall stability of the device; one side of the sliding block is connected with the guide rail in a sliding way; the filter barrel component can stably fall into the outer barrel downwards along the guide rail, and the running stability of the device is improved.

In conclusion, the device has the advantages of low cost, convenience in maintenance and better balance and stability of equipment.

Drawings

FIG. 1 is a front view of a water treatment apparatus of this embodiment 1;

FIG. 2 is a schematic structural view of the outer tub assembly of the present embodiment 1;

FIG. 3 is a schematic structural view of the lifting mechanism part of the embodiment 1;

FIG. 4 is a schematic structural diagram of an outer tub assembly of the ceiling-mounted water treatment apparatus of the embodiment 2;

FIG. 5 is a schematic diagram of a multi-stage water treatment system;

FIG. 6 shows water quality test parameters in a test report;

fig. 7 is a photograph of a real shot of various water samples.

In the figure: 1. an outer tub assembly; 101. a support; 1011. a side lever; 1012. a frame; 102. an outer tub; 103. a sewage pump; 104. a liquid inlet pipe; 105. a water pumping pipe; 106. a liquid pump;

a lauter tub assembly; 201. a lifting platform; 202. a rotating electric machine; 203. a filter vat;

a lifting mechanism; 301. a lifting drive motor; 302. a hoisting rope; 303. a pay-off roller;

a guide rail; 5. a guide rail slider; 6. a bolt; 7. a sleeve; 8. a lifting rod; 9. connecting ropes; 10. a hoisting ring; 11. and (5) fixing blocks.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

Example 1

Water treatment equipment with hoisting mechanism

As shown in fig. 1 to 3, a water treatment apparatus with a hoisting mechanism comprises a bracket 101, an outer tub assembly 1, a filter tub assembly 2 and a lifting mechanism 3;

the outer tub assembly 1 comprises an outer tub 102; a sewage valve or a sewage pump 103 is arranged at the bottom of the outer barrel 102; the outer barrel 102 may be wound with a liquid inlet pipe 104 for introducing water to be treated into the outer barrel, or the liquid inlet pipe 104 may be disposed separately from the outer barrel;

the bracket is arranged on the outer barrel; or the bracket is arranged outside the outer barrel;

the filter vat assembly 2 comprises a filter vat and a lifting platform, the lifting platform is slidably mounted on the support 101, the filter vat is mounted on the lifting platform 201, and a plurality of filter holes are formed in the wall of the filter vat 203;

the lifting mechanism 3 comprises a lifting driving motor 301 arranged on the support, a rotating shaft of the lifting driving motor 301 is in transmission connection with a pay-off roller 303, and two ends of the pay-off roller 303 are respectively inserted into two bearings on the support; a hoisting rope 302 is wound and connected on the pay-off roller 303;

when the filter vat component 2 is lifted, the lifting rope 302 is taken out from the paying-off roller, and is directly connected with the lifting platform 201 or is connected with the lifting platform through the tool lifting piece, and the lifting driving motor 301 is started to drive the filter vat 203 to be lifted or to enable the filter vat to fall into an outer vat.

Further, the bracket comprises at least two side rods 1011 arranged vertically, and the side rods 1011 are used for arranging the guide rail 4 close to the inner side of the supporting platform; the lifting platform comprises a base plate; the side edge of the substrate is provided with L-shaped steel in a welding mode or a screwing mode, and one surface of the L-shaped steel is provided with a guide rail sliding block 5; the lifting platform is connected with the guide rail 4 in a sliding way through a guide rail sliding block 5. The guide rail slide block 5 mechanism is used for improving the stability of the device on one hand, so that the filter drum component part can vertically and stably fall into the outer drum component 1 along the guide rail; on the other hand is also the spacing to the lauter tub subassembly, because the slider of setting on lift platform is hugged closely to the guide rail, consequently the guide rail is in fact spacing to the lauter tub subassembly on the horizontal direction, makes the lauter tub subassembly remain the position directly over outer bucket subassembly all the time.

Further, the stand includes a frame 1012; the frame 1012 includes legs that support a unitary bracket; the outer barrel is arranged on a frame 1012, the side rods 1011 are fixedly connected with the supporting legs through connecting pieces, and the connecting pieces can be bolts 6, bolts or ropes; the two are connected together in a mode of easy disassembly such as bolt pin clamping, screw connection, rope binding and the like so as to improve the overall stability of the device.

Furthermore, a water pumping pipe 105 for pumping water in the filter vat is arranged in the filter vat, and one end of the water pumping pipe 105 is connected with a liquid pump 106.

Further, the filter vat is a rotary filter vat with a rotating shaft, the rotating shaft is inserted on a base plate of the lifting platform through a bearing, and the rotating shaft is directly connected with an output end of the rotating motor 202 or meshed with a main gear installed on the rotating shaft of the rotating motor 202 through a gear transmission mechanism.

Further, the tool hoisting part comprises a fixed block 11, a hoisting ring 10 and a section of connecting rope 9; at least one fixing block is arranged; when the number of the fixed blocks is multiple, the fixed blocks are symmetrically arranged by taking the rotating shaft as a central shaft;

the fixed block 11 is connected with a hanging ring 10 through a connecting rope 9; the hoisting rope 302 is connected with a hoisting ring.

The specific working principle of the utility model is as follows: sewage enters the outer barrel through a water outlet hole on the pipe wall of the liquid inlet pipe 104, and a water treatment agent is added into the outer barrel; before that, the filter barrel component is lifted out of the outer barrel by the lifting mechanism 3, because the water treatment agent and the sewage can generate flocculation reaction, and the generated fine flocs are easy to block filter holes on the filter barrel, the filter barrel component is firstly lifted by the lifting mechanism;

after the reaction is completed, the lifting mechanism puts the filter vat into the outer vat, and the sewage is filtered through the filter holes and enters the filter vat;

the liquid pump pumps out the purified water, and the sewage pump 103 discharges the pollutants accumulated at the bottom of the filter vat.

(II) a multi-stage water treatment system

As shown in fig. 5, a multi-stage water treatment system comprises a water treatment facility with a hoisting mechanism, wherein the water treatment facility with the hoisting mechanism is the water treatment facility with the hoisting mechanism; the device also comprises a DTRO module, and a coarse filtration module is optionally arranged between a clear liquid outlet of the water treatment equipment with the hoisting mechanism and the DTRO module; the coarse filtration module is at least one of a quartz sand filter, an activated carbon filter, a bag filter and a ceramic membrane filter.

Further, the device also comprises a three-dimensional electrolysis module; the three-dimensional electrolysis module is used for further purifying the concentrated solution output by the DTRO module.

FIG. 7 is a reference view showing the effect of water treatment. The intelligent water treatment modules and the core modules in fig. 6 and 7 both refer to water treatment equipment with a hoisting mechanism, and it can be seen that after the water treatment equipment with the hoisting mechanism is adopted to flocculate sewage and filter the sewage, various indexes (such as COD (chemical oxygen demand), ammonia nitrogen and the like) of the sewage are greatly reduced, and the water purification standard can be achieved by using the subsequent DTRO (digital terrestrial ro reverse osmosis) and three-dimensional electrolysis treatment, so that the traditional biochemical process is integrally replaced, compared with the traditional biochemical process, the system is uncontrollable, greatly influenced by multiple factors such as environment, input of digestive bacteria and the like, and is completely controllable, and because the three-dimensional electrolysis technology is almost irrelevant to the environment temperature, all-weather operation and completely reliable standard discharge can be realized;

performing reverse osmosis on flocculated and filtered sewage through a DTRO module to separate the sewage into penetrating fluid and concentrated solution needing further treatment; therefore, the amount of the concentrated solution to be treated by the three-dimensional electrolysis module is greatly reduced (the concentrated solution after reverse osmosis is about 10% -30% of the amount of the sewage before), so that the sewage treatment efficiency is improved, and the energy consumption is reduced; in addition, the three-dimensional electrolysis technology is particularly suitable for purifying concentrated solution.

Example 2

As shown in fig. 4, the present embodiment is different from embodiment 1 in that a sleeve 7 is vertically arranged around the outer tub, the sleeve is hollowed into a blind hole, a lifting rod 8 is slidably mounted in the blind hole, and the upper end of the lifting rod 8 is connected with the bottom of the lifting platform.

Namely, in the embodiment, the guide rail mechanism is replaced by a mechanism consisting of a sleeve and a lifting rod.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (10)

1. A water treatment device with a hoisting mechanism is characterized by comprising a bracket (101), an outer barrel assembly (1), a filter barrel assembly (2) and a lifting mechanism (3);

the outer tub assembly (1) comprises an outer tub (102); a sewage valve or a sewage pump (103) is arranged at the bottom of the outer barrel (102);

the bracket is arranged on the outer barrel; or the bracket is arranged outside the outer barrel;

the filter vat component (2) comprises a filter vat and a lifting platform, wherein the lifting platform (201) is slidably mounted on the support (101), the filter vat (203) is mounted on the lifting platform (201), and a plurality of filter holes are formed in the wall of the filter vat (203);

the lifting mechanism (3) comprises a lifting driving motor (301) arranged on the support (101), a rotating shaft of the lifting driving motor (301) is in transmission connection with a pay-off roller (303), and two ends of the pay-off roller (303) are respectively inserted into two bearings on the support (101); a hoisting rope (302) is wound and connected on the pay-off roller (303);

when the filter vat assembly (2) goes up and down, the lifting rope (302) goes out of the pay-off roller (303), is directly connected with the lifting platform (201) or is connected with the lifting platform (201) through a tool lifting piece, and the lifting driving motor (301) is started to drive the filter vat to rise or enable the filter vat to fall into the outer vat (102).

2. The water treatment equipment with the hoisting mechanism is characterized in that the bracket (101) comprises at least two vertically arranged side rods (1011), guide rails (4) are arranged on the inner sides of the side rods (1011), guide rail sliding blocks (5) are arranged on two sides of the lifting platform (201), and the lifting platform is slidably connected with the guide rails (4) through the guide rail sliding blocks (5).

3. The water treatment apparatus with a lifting mechanism as recited in claim 2, characterized in that the outer tub is supported by legs (1012).

4. The water treatment equipment with the hoisting mechanism is characterized in that the side rods (1011) are fixedly connected with the support legs (1012) through connecting pieces.

5. The water treatment equipment with the lifting mechanism as recited in claim 1, characterized in that a water pumping pipe (105) for pumping water in the filter vat is arranged in the filter vat, and one end of the water pumping pipe (105) is connected with a liquid pump (106).

6. The water treatment equipment with the hoisting mechanism is characterized in that the filter vat is a rotary filter vat with a rotating shaft, the rotating shaft is inserted on a base plate of the lifting platform (201) through a bearing, and the rotating shaft is directly connected with an output end of the rotating motor (202) or meshed with a main gear arranged on the rotating shaft of the rotating motor (202) through a gear transmission mechanism.

7. The water treatment equipment with the hoisting mechanism is characterized in that the tool hoisting piece comprises a fixed block (11), a hoisting ring (10) and a section of connecting rope (9); at least one fixing block is arranged; when the number of the fixed blocks is multiple, the fixed blocks are symmetrically arranged by taking the rotating shaft as a central shaft;

the fixed block (11) is connected with a lifting ring (10) through a connecting rope (9); the hoisting rope (302) is connected with the hoisting ring (10).

8. The water treatment equipment with the hoisting mechanism is characterized in that a sleeve (7) is vertically arranged around the outer barrel, a blind hole is formed in the sleeve (7) in a hollowed mode, a lifting rod (8) is installed in the blind hole in a sliding mode, and the upper end of the lifting rod (8) is connected with a lifting platform (201).

9. A multi-stage water treatment system, which is characterized by comprising a water treatment device with a hoisting mechanism, wherein the water treatment device with the hoisting mechanism is the water treatment device with the hoisting mechanism according to any one of claims 1 to 8; the device also comprises a DTRO module, and a coarse filtration module is optionally arranged between a clear liquid outlet of the water treatment equipment with the hoisting mechanism and the DTRO module; the coarse filtration module is at least one of a quartz sand filter, an activated carbon filter, a bag filter and a ceramic membrane filter.

10. The multi-stage water treatment system of claim 9, further comprising a three-dimensional electrolysis module; the three-dimensional electrolysis module is used for further purifying the concentrated solution output by the DTRO module.

Images