CN216878179U

CN216878179U - Central air conditioning cooling water treatment facilities

Info

Publication number: CN216878179U
Application number: CN202220492707.9U
Authority: CN
Inventors: 吴强
Original assignee: Dongguan Sudiwar Technology Co ltd
Current assignee: Dongguan Sudiwar Technology Co ltd
Priority date: 2022-03-09
Filing date: 2022-03-09
Publication date: 2022-07-05
Anticipated expiration: 2032-03-09

Abstract

The utility model discloses a central air-conditioning cooling water treatment device which comprises a cooling tower, a main body mechanism and a filtering mechanism, wherein the main body mechanism is arranged on the right side of the cooling tower, a flow dividing mechanism is arranged at the upper end of the main body mechanism, an online monitoring automatic dosing device is arranged at the upper end of the flow dividing mechanism, a sewage discharging mechanism is arranged in the main body mechanism, and the filtering mechanism is arranged below the sewage discharging mechanism. This central air conditioning cooling water treatment facilities, the effectual mud that drops in to the cooling water of filter screen, impurity such as incrustation scale and alga filters, vibrating motor makes the filter screen shake with setting up of spring simultaneously, avoid filter screen surface blocking, also do benefit to the mud with filter screen surface simultaneously, impurity such as incrustation scale and alga shakes scattered, make things convenient for dust extraction to adsorb, push away dust extraction to being close to the filter screen through the hydraulic stem this moment, effectual mud to filter screen surface, incrustation scale and alga adsorb, finally carry to the external world by the blow off pipe.

Description

Central air conditioning cooling water treatment facilities

Technical Field

The utility model relates to the technical field of central air-conditioning cooling water treatment, in particular to a central air-conditioning cooling water treatment device.

Background

In the process of recycling cooling water of a central air conditioner, through heat transfer and mass transfer exchange of a cooling structure, ions such as Ca2+, Mg2+, CL-and the like in the circulating water, soluble solids and suspended matters are correspondingly increased, and pollutants such as dust, sundries, soluble gas, heat exchanger material leakage and the like in the air can enter the circulating water, so that a large number of microorganisms are propagated, and scaling, corrosion and slime are generated in a pipeline of a circulating cooling water system, the heat exchange efficiency of the heat exchanger is reduced, energy is wasted, the water passing section is reduced, the water passing capacity is reduced, even the pipeline of equipment is corroded and perforated, and accidents are caused.

The cooling water treatment device of the central air conditioner in the market is improper in circulating cooling water treatment in use, so that cooling equipment is scaled and corroded in different degrees, energy consumption is increased, the equipment can be damaged in serious conditions, production accidents of factory parking, production stoppage and production reduction can be caused, and great economic loss is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a central air-conditioning cooling water treatment device to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a central air conditioning cooling water treatment facilities, includes cooling tower, main part mechanism and filtering mechanism, the right-hand main part mechanism that is provided with of cooling tower, and the upper end of main part mechanism is provided with reposition of redundant personnel mechanism, the upper end of reposition of redundant personnel mechanism is provided with on-line monitoring automatic reagent feeding device, the inside of main part mechanism is provided with sewage discharging mechanism, and sewage discharging mechanism's below is provided with filtering mechanism, filtering mechanism includes spacing, vibrating motor, filter screen and spring, and the inboard top of spacing is provided with vibrating motor, vibrating motor's lower extreme laminating has the filter screen, and the below of filter screen is provided with the spring.

Further, laminating mutually between vibrating motor and the filter screen, and the filter screen passes through the spring and constitutes elastic construction with spacing.

Further, the main body mechanism comprises a treatment tank, a control panel, a booster pump and a connecting pipe, the surface of the treatment tank is provided with the control panel, the left end of the treatment tank is provided with the booster pump, and the left end of the booster pump is provided with the connecting pipe.

Furthermore, the treatment tank is communicated with the cooling tower through a booster pump and a connecting pipe, and the control panel is embedded on the surface of the treatment tank.

Furthermore, the shunting mechanism comprises a backflow pipe and a shunting pipe, and the shunting pipe is arranged at the lower end of the backflow pipe.

Furthermore, the sewage discharging mechanism comprises a dust suction device, a sewage discharging pipe and a hydraulic rod, the middle of the rear end of the dust suction device is provided with the sewage discharging pipe, and the hydraulic rod is arranged on the side of the sewage discharging pipe.

Furthermore, the dust suction device and the main body mechanism form a telescopic structure through a hydraulic rod, and the dust suction device is communicated with the sewage discharge pipe.

Compared with the prior art, the utility model has the beneficial effects that:

this central air conditioning cooling water treatment facilities, the effectual mud that drops in to the cooling water of filter screen, impurity such as incrustation scale and alga filters, vibrating motor makes the filter screen shake with setting up of spring simultaneously, avoid filter screen surface blocking, also do benefit to the mud with filter screen surface simultaneously, impurity such as incrustation scale and alga shakes scattered, make things convenient for dust extraction to adsorb, push away dust extraction to being close to the filter screen through the hydraulic stem this moment, effectual mud to filter screen surface, incrustation scale and alga adsorb, finally carry to the external world by the blow off pipe.

Through the setting of main body mechanism, because the treatment tank is linked together through booster pump, connecting pipe and cooling tower, consequently the effectual cooling water with in the cooling tower of accessible booster pump is taken out to the treatment tank in, is convenient for carry out certain processing to the cooling water, and the setting of back flow is used for sending back the cooling water of having handled again to the cooling tower, and the setting of shunt tubes is used for the recoil connecting pipe to reach the washing cooling tower water tray effect.

Through sewage discharge mechanism's setting, after filtering mechanism filters the cooling water, the mud that drops in the cooling water, impurity such as incrustation scale and alga are retained in the filter screen surface, push away dust extraction to being close to the filter screen through the hydraulic stem this moment, and effectual mud to the filter screen surface, incrustation scale and alga adsorb, finally carry to the external world by the blow off pipe.

Through filtering mechanism's setting, the effectual mud that drops in to the cooling water of filter screen, impurity such as incrustation scale and alga filters, and vibrating motor makes the filter screen shake with the setting up of spring simultaneously, avoids filter screen surface to block up, also does benefit to simultaneously with the mud on filter screen surface, impurity such as incrustation scale and alga shakes scattered, makes things convenient for dust extraction to adsorb.

Drawings

FIG. 1 is a schematic front view of the present invention;

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

FIG. 3 is a schematic view of the front view of the internal structure of the present invention;

fig. 4 is a schematic perspective view of the drainage mechanism of the present invention.

In the figure: 1. a cooling tower; 2. a main body mechanism; 201. a treatment tank; 202. a control panel; 203. a booster pump; 204. a connecting pipe; 3. a flow dividing mechanism; 301. a return pipe; 302. a shunt tube; 4. monitoring an automatic dosing device on line; 5. a sewage draining mechanism; 501. a dust suction device; 502. a blow-off pipe; 503. a hydraulic rod; 6. a filtering mechanism; 601. a limiting frame; 602. a vibration motor; 603. filtering with a screen; 604. a spring.

Detailed Description

As shown in fig. 1-2, a central air-conditioning cooling water treatment device comprises: the cooling tower 1, the right side of the cooling tower 1 is provided with a main body mechanism 2, the upper end of the main body mechanism 2 is provided with a shunt mechanism 3, the upper end of the shunt mechanism 3 is provided with an online monitoring automatic medicine feeding device 4, the main body mechanism 2 comprises a treatment tank 201, a control panel 202, a booster pump 203 and a connecting pipe 204, the surface of the treatment tank 201 is provided with the control panel 202, the left end of the treatment tank 201 is provided with the booster pump 203, the left end of the booster pump 203 is provided with the connecting pipe 204, the treatment tank 201 is communicated with the cooling tower 1 through the booster pump 203 and the connecting pipe 204, the control panel 202 is embedded on the surface of the treatment tank 201, as the treatment tank 201 is communicated with the cooling tower 1 through the booster pump 203 and the connecting pipe 204, cooling water in the cooling tower 1 can be effectively pumped into the treatment tank 201 through the booster pump 203, certain treatment of the cooling water is convenient, the shunt mechanism 3 comprises a return pipe 301 and a shunt pipe 302, and the lower end of the return pipe 301 is provided with a shunt pipe 302, the return pipe 301 is arranged for returning the treated cooling water to the cooling tower 1 again, and the shunt pipe 302 is arranged for backflushing the connecting pipe 204 to achieve the effect of cleaning the water tray of the cooling tower 1.

As shown in fig. 3-4, a central air-conditioning cooling water treatment device, a sewage discharging mechanism 5 is arranged inside a main body mechanism 2, a filtering mechanism 6 is arranged below the sewage discharging mechanism 5, the sewage discharging mechanism 5 comprises a dust collector 501, a sewage discharging pipe 502 and a hydraulic rod 503, the middle of the rear end of the dust collector 501 is provided with the sewage discharging pipe 502, the side of the sewage discharging pipe 502 is provided with the hydraulic rod 503, the dust collector 501 forms a telescopic structure with the main body mechanism 2 through the hydraulic rod 503, the dust collector 501 is communicated with the sewage discharging pipe 502, when the filtering mechanism 6 filters cooling water, sludge, scale, algae and other impurities falling off from the cooling water are retained on the surface of a filter screen 603, at the moment, the dust collector 501 is pushed to be close to the filter screen 603 through the hydraulic rod 503, sludge, scale and algae on the surface of the filter screen 603 are effectively adsorbed, and finally the sewage is conveyed to the outside through the sewage discharging pipe 502, filter mechanism 6 includes spacing 601, vibrating motor 602, filter screen 603 and spring 604, and the inboard top of spacing 601 is provided with vibrating motor 602, the lower extreme laminating of vibrating motor 602 has filter screen 603, and the below of filter screen 603 is provided with spring 604, laminate mutually between vibrating motor 602 and the filter screen 603, and filter screen 603 passes through spring 604 and constitutes elastic structure with spacing 601, the effectual mud that drops in the cooling water of filter screen 603, impurity such as incrustation scale and alga filters, vibrating motor 602 makes filter screen 603 shake with setting up of spring 604 simultaneously, avoid filter screen 603 surface blocking, also do benefit to the mud on filter screen 603 surface simultaneously, impurity such as incrustation scale and alga shakes and looses, make things convenient for dust extraction 501 to adsorb.

In summary, in the central air-conditioning cooling water treatment apparatus, firstly, since the treatment tank 201 is communicated with the cooling tower 1 through the booster pump 203 and the connecting pipe 204, the cooling water in the cooling tower 1 can be effectively pumped into the treatment tank 201 through the booster pump 203, the model of the booster pump 203 is PW-175EAH, which is convenient for certain treatment of the cooling water, the filter screen 603 effectively filters impurities such as sludge, scale, algae, and the like falling from the cooling water, and the arrangement of the vibration motor 602 and the spring 604 enables the filter screen 603 to vibrate, the model of the vibration motor 602 is YZU-8-2, which avoids surface blockage of the filter screen 603, and is also beneficial for vibrating and dispersing impurities such as sludge, scale, algae, and the like on the surface of the filter screen 603, when the cooling water is filtered by the filter mechanism 6, the impurities such as sludge, scale, algae, and the like falling from the cooling water are retained on the surface of the filter screen 603, and at this time, the dust collector 501 is pushed to be close to the filter screen 603 through the hydraulic rod 503, the effectual mud to the filter screen 603 surface, incrustation scale and alga adsorb, finally carry to the external world by blow off pipe 502, the setting of back flow pipe 301 is used for sending treated cooling water back again to cooling tower 1, the setting of shunt tubes 302 is used for recoil connecting pipe 204 to reach the effect of wasing cooling tower 1 water tray, the quality of water real-time change of the effectual monitoring cooling water of on-line monitoring automatic dosing device 4, automatic putting in sterilization algaecide and scale control detergent, control PH and conductivity real-time change simultaneously, start-up system blowdown when reaching the high limit value.

Claims

1. The utility model provides a central air conditioning cooling water treatment facilities, includes cooling tower (1), main part mechanism (2) and filtering mechanism (6), its characterized in that: the right-hand main part mechanism (2) that is provided with of cooling tower (1), and the upper end of main part mechanism (2) is provided with reposition of redundant personnel mechanism (3), the upper end of reposition of redundant personnel mechanism (3) is provided with on-line monitoring automatic reagent feeding device (4), the inside of main part mechanism (2) is provided with sewage discharging mechanism (5), and the below of sewage discharging mechanism (5) is provided with filtering mechanism (6), filtering mechanism (6) are including spacing (601), vibrating motor (602), filter screen (603) and spring (604), and the inboard top of spacing (601) is provided with vibrating motor (602), the lower extreme laminating of vibrating motor (602) has filter screen (603), and the below of filter screen (603) is provided with spring (604).

2. The cooling water treatment device of the central air conditioner according to claim 1, characterized in that: the vibrating motor (602) is attached to the filter screen (603), and the filter screen (603) forms an elastic structure with the limiting frame (601) through the spring (604).

3. The cooling water treatment device of the central air conditioner according to claim 1, characterized in that: the main body mechanism (2) comprises a treatment tank (201), a control panel (202), a booster pump (203) and a connecting pipe (204), the surface of the treatment tank (201) is provided with the control panel (202), the left end of the treatment tank (201) is provided with the booster pump (203), and the left end of the booster pump (203) is provided with the connecting pipe (204).

4. The cooling water treatment device of the central air conditioner according to claim 3, characterized in that: the treatment tank (201) is communicated with the cooling tower (1) through a booster pump (203) and a connecting pipe (204), and the control panel (202) is embedded on the surface of the treatment tank (201).

5. The cooling water treatment device of the central air conditioner according to claim 1, characterized in that: the shunt mechanism (3) comprises a return pipe (301) and a shunt pipe (302), and the shunt pipe (302) is arranged at the lower end of the return pipe (301).

6. The cooling water treatment device of the central air conditioner according to claim 1, characterized in that: the sewage draining mechanism (5) comprises a dust collecting device (501), a sewage draining pipe (502) and a hydraulic rod (503), the middle of the rear end of the dust collecting device (501) is provided with the sewage draining pipe (502), and the hydraulic rod (503) is arranged on the side of the sewage draining pipe (502).

7. The cooling water treatment device of the central air conditioner according to claim 6, characterized in that: the dust suction device (501) and the main body mechanism (2) form a telescopic structure through a hydraulic rod (503), and the dust suction device (501) is communicated with the sewage discharge pipe (502).