CN214088731U - Recycling device for condensed water in electroplating solution treatment - Google Patents

Abstract

The utility model discloses a device of recycling of condensate water among plating solution treatment, it includes the cooling tower, the inside cooling tower cavity that is equipped with of cooling tower, it is connected with outlet conduit to rotate on the top surface of cooling tower cavity, be provided with a plurality of apopore on outlet conduit's the surface, install the air inlet network with the cooling tower cavity intercommunication on the side of cooling tower, outlet conduit's side is arranged in to the air inlet network, be fixed with a plurality of outlet conduit on the up end of cooling tower, the outlet conduit internal fixation has fan and a plurality of baffle group, the below of fan is arranged in to baffle group, install the subassembly that turns over water in the cooling tower cavity, the subassembly that turns over water is arranged in the bottom of cooling tower cavity and is located the side of inlet network, the subassembly that turns over water and the rotation of cooling tower cavity are connected. The utility model has the advantages that: the condensed water cooled by the cooling tower is recycled, so that the fresh water consumption is reduced, and the water utilization rate is improved.

Description

Recycling device for condensed water in electroplating solution treatment

Technical Field

The utility model relates to a relevant technical field is retrieved to the plating solution, especially indicates a device of recycling of condensate water among plating solution treatment.

Background

Electroplating production is considered to be a source of environmental pollution. This is true as well: many electroplating plants continuously discharge harmful chemicals into the earth, rivers and the atmosphere, and if the harmful chemicals are not controlled, the environment is seriously polluted. In fact, this situation also limits the survival and development of the electroplating industry itself. The general trend in treating electroplating contamination is to control the electroplating production, particularly the emissions. These emissions often contain precious metals, and wasting precious metals is wasteful of money. But in addition to economic factors, the driving force for really promoting environmental protection is the attention of the government. Most countries around the world now have legislation that defines the concentration and total amount of harmful substances in electroplating effluent.

At present, the strictest new environmental protection method is implemented in all aspects in China, and more severe examination is provided for the majority of electroplating enterprises. Because the electroplating work piece brings out a large amount of plating solution, not only cause the waste of electroplating raw and other materials, brought huge economy and environmental protection pressure for later stage waste water discharge up to standard moreover.

At present, clean production is advocated in various industries, pollution sources are controlled from the source, the resource utilization rate is improved, pollutants are reduced or avoided in the production process, and lost resources in the production process are recycled as far as possible.

SUMMERY OF THE UTILITY MODEL

The utility model provides a recycling device of condensate water in electroplating solution treatment, which can recycle condensate water, in order to overcome the defect that the condensate water can not be recycled in the prior art.

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

a device for recycling condensed water in electroplating solution treatment comprises a cooling tower, wherein a cooling tower cavity is arranged in the cooling tower, a water outlet pipeline is rotatably connected to the top surface of the cooling tower cavity, a plurality of water outlet holes are formed in the outer surface of the water outlet pipeline, an air inlet net communicated with the cooling tower cavity is installed on the side surface of the cooling tower, the air inlet net is arranged on the side surface of the water outlet pipeline, a plurality of air outlet pipelines are fixed on the upper end surface of the cooling tower, a fan and a plurality of baffle groups are fixed in the air outlet pipeline, the baffle groups are arranged below the fan, a water turning assembly is installed in the cooling tower cavity, the water turning assembly is arranged at the bottom of the cooling tower cavity and located on the side surface of the air inlet net, and the water turning assembly is rotatably connected with the cooling tower cavity.

The cooling tower is internally provided with a cooling tower cavity, the top surface of the cooling tower cavity is rotatably connected with a water outlet pipeline, the outer surface of the water outlet pipeline is provided with a plurality of water outlet holes, the side surface of the cooling tower is provided with an air inlet net communicated with the cooling tower cavity, the air inlet net is arranged on the side surface of the water outlet pipeline, the upper end surface of the cooling tower is fixedly provided with a plurality of air outlet pipelines, the air outlet pipeline is internally and fixedly provided with a fan and a plurality of baffle groups, the baffle groups are arranged below the fan, the cooling tower cavity is internally provided with a water turning assembly, the water turning assembly is arranged at the bottom of the cooling tower cavity and positioned on the side surface of the air inlet net, the water turning assembly is rotatably connected with the cooling tower cavity, the used condensate water flows into the cooling tower cavity through the water outlet pipeline, and the condensate water entering the cooling tower can be more dispersed through the water outlet pipeline and the rotation of the cooling tower, the contact area between the condensate water and the air is greatly increased, so that the cooling time of the condensate water is faster, and the efficiency is higher; the fan sucks air into the cooling tower from the air inlet net to cool sprayed condensed water, and meanwhile, water vapor taken away by the air is condensed into water drops to be left in the cooling tower when meeting the baffle group of the air outlet pipeline, so that the loss of the condensed water is reduced; the gas that the net of admitting air was inhaled cooling tower can blow the subassembly of overturning the water and rotate, carries out the stirring that does not stop to the comdenstion water that falls into the cooling tower bottom, accelerates the cooling of comdenstion water.

Preferably, a rotary power head is fixed on the top surface of the cavity of the cooling tower, a water outlet pipeline is mounted on the rotary power head and is rotatably connected with the cavity of the cooling tower through the rotary power head, the water outlet pipeline is in a curve shape, a cooling tower water inlet pipe communicated with the water outlet pipeline is mounted at the top of the cooling tower, condensed water enters the cavity of the cooling tower through the cooling tower water inlet pipe, and the rotary power head is used for driving the curve-shaped water outlet pipeline to rotate.

Preferably, the bottom of the cooling tower is provided with a temperature sensor and a cooling tower water outlet pipe, the temperature sensor is electrically connected with a fan, the cooling tower water outlet pipe is provided with a valve body, the side surface of the cooling tower water outlet pipe is provided with an upper liquid level switch and a lower liquid level switch, the upper liquid level switch is positioned above the lower liquid level switch, the temperature sensor is used for detecting the temperature of condensed water at the bottom of the cooling tower in real time, and when the temperature of the condensed water does not fall to a preset value, the temperature sensor can send a signal to the fan to increase the rotating speed of the fan, increase the suction of air and improve the cooling power of the cooling tower.

As preferred, the subassembly of turning over water includes rotating frame, all is fixed with the axis of rotation on two stands of rotating frame, and rotating frame installs in the cooling tower cavity through two axis of rotation and rotates with the cooling tower cavity to be connected, and the bottom of axis of rotation and air inlet net is located same horizontal plane, all is fixed with the ladle of turning over water on two cross axles of rotating frame, turns over the ladle through the ladle of turning over water and carries out the stirring that does not stop to the comdenstion water that falls into the cooling tower bottom, the cooling of comdenstion water with higher speed.

Preferably, the upper liquid level switch is arranged below the air inlet net and electrically connected with the valve body, the lower liquid level switch is arranged below the rotating shaft, the vertical distance from the lower liquid level switch to the rotating shaft is equal to the distance from the water turning spoon to the rotating shaft, when the liquid level of condensate water in the cooling tower rises to the upper liquid level switch, the valve body is automatically opened to drain water, the problem that the cooling efficiency is influenced due to excessive condensate water in the cooling tower is prevented, and the lower liquid level switch is used for ensuring that the water turning assembly can always turn and stir the condensate water in the cooling tower.

Preferably, the baffle group comprises a first plate and a second plate, the sum of the length of the first plate and the length of the second plate is larger than or equal to the inner diameter of the air outlet pipeline, the first plate and the second plate are distributed in the air outlet pipeline in a left-right staggered mode, the first plate is arranged above the second plate, a first flanging facing the second plate is arranged on the first plate, a second flanging facing the first plate is arranged on the second plate, the added baffle group not only ensures the air permeability of the air outlet pipeline, but also can well block water vapor, so that the water vapor taken away by air can be condensed into water drops when meeting the baffle group of the air outlet pipeline and is remained in the cooling tower, and further, the loss of condensed water is reduced.

The utility model has the advantages that: the condensed water cooled by the cooling tower is recycled, so that the fresh water consumption is reduced, and the water utilization rate is improved; the condensed water is sprayed into the cooling tower through the water outlet hole in a rotating manner, so that the condensed water entering the cooling tower is more dispersed, the contact area with air is greatly increased, the cooling time of the condensed water is faster, and the efficiency is higher; the water turning spoon through the water turning assembly continuously turns over and stirs the condensed water falling into the bottom of the cooling tower, and cooling of the condensed water is accelerated.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an internal structural view of FIG. 1;

FIG. 3 is an enlarged view at A in FIG. 2;

fig. 4 is a schematic structural view of the rotating frame of fig. 2.

In the figure: 1. the cooling tower comprises a cooling tower, 2 parts of a cooling tower water inlet pipe, 3 parts of a gas inlet net, 4 parts of a cooling tower water outlet pipe, 5 parts of an upper liquid level switch, 6 parts of a lower liquid level switch, 7 parts of a cooling tower cavity, 8 parts of a rotary power head, 9 parts of a water outlet pipeline, 10 parts of a water outlet hole, 11 parts of a valve body, 12 parts of a temperature sensor, 13 parts of a rotating shaft, 14 parts of a rotating frame, 15 parts of a water turning spoon, 16 parts of a fan, 17 parts of a gas outlet pipeline, 18 parts of a baffle group, 19 parts of a first plate, 20 parts of a second flanging, 21 parts of a first flanging, and 22 parts of a second plate.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

In the embodiment shown in fig. 1 and 2, a recycling device for condensed water in electroplating solution treatment includes a cooling tower 1, a cooling tower cavity 7 is provided in the cooling tower 1, a water outlet pipe 9 is rotatably connected to the top surface of the cooling tower cavity 7, a plurality of water outlet holes 10 are provided on the outer surface of the water outlet pipe 9, an air inlet net 3 communicated with the cooling tower cavity 7 is installed on the side surface of the cooling tower 1, the air inlet net 3 is disposed on the side surface of the water outlet pipe 9, a plurality of air outlet pipes 17 are fixed on the upper end surface of the cooling tower 1, as shown in fig. 3, a fan 16 and a plurality of baffle groups 18 are fixed in the air outlet pipe 17, the baffle groups 18 are disposed below the fan 16, a water turning assembly is installed in the cooling tower cavity 7, the water turning assembly is disposed at the bottom of the cooling tower cavity 7 and located on the side surface of the air inlet net 3, and the water turning assembly is rotatably connected to the cooling tower cavity 7.

As shown in fig. 2, a rotary power head 8 is fixed on the top surface of the cavity 7 of the cooling tower, a water outlet pipe 9 is installed on the rotary power head 8 and is rotatably connected with the cavity 7 of the cooling tower through the rotary power head 8, the water outlet pipe 9 is in a curve shape, and a water inlet pipe 2 of the cooling tower communicated with the water outlet pipe 9 is installed on the top of the cooling tower 1.

As shown in fig. 2, a temperature sensor 12 and a cooling tower water outlet pipe 4 are installed at the bottom of a cooling tower 1, the temperature sensor 12 is electrically connected with a fan 16, a valve body 11 is installed on the cooling tower water outlet pipe 4, an upper liquid level switch 5 and a lower liquid level switch 6 are installed on the side surface of the cooling tower water outlet pipe 4, and the upper liquid level switch 5 is located above the lower liquid level switch 6.

As shown in fig. 2 and 4, the water turning assembly includes a rotating frame 14, two upright posts of the rotating frame 14 are both fixed with rotating shafts 13, the rotating frame 14 is installed in the cooling tower cavity 7 through the two rotating shafts 13 and is rotatably connected with the cooling tower cavity 7, the rotating shafts 13 and the bottom of the air inlet net 3 are located on the same horizontal plane, and two horizontal shafts of the rotating frame 14 are both fixed with water turning scoops 15.

As shown in fig. 2, the upper liquid level switch 5 is arranged below the air inlet net 3, the upper liquid level switch 5 is electrically connected with the valve body 11, and the lower liquid level switch 6 is arranged below the rotating shaft 13, and the vertical distance from the lower liquid level switch to the rotating shaft 13 is equal to the distance from the water turning spoon 15 to the rotating shaft 13.

As shown in fig. 3, the baffle group 18 includes a first plate 19 and a second plate 22, the sum of the length of the first plate 19 and the length of the second plate 22 is greater than or equal to the inner diameter of the outlet pipe 17, the first plate 19 and the second plate 22 are distributed in the outlet pipe 17 in a left-right staggered manner, the first plate 19 is arranged above the second plate 22, a first flange 21 facing the second plate 22 is arranged on the first plate 19, and a second flange 20 facing the first plate 19 is arranged on the second plate 22.

The working principle is as follows: when the condensed water flows through the water outlet pipeline 9, the rotary power head 8 works to drive the water outlet pipeline 9 to rotate, so that the condensed water is rotationally sprayed into the cooling tower 1 through the water outlet hole 41; meanwhile, the fan 16 works to suck air into the cooling tower 1 from the air inlet net 3 and cool the sprayed condensed water; meanwhile, air is sucked into the cooling tower 1 to blow the rotating frame 14 to rotate, so that the water turning spoon 15 on the air continuously turns over and stirs the condensed water falling into the bottom of the cooling tower 1, and cooling of the condensed water is accelerated.

Claims (6)

1. A recycling device for condensed water in electroplating solution treatment is characterized by comprising a cooling tower (1), wherein a cooling tower cavity (7) is arranged in the cooling tower (1), a water outlet pipeline (9) is rotatably connected to the top surface of the cooling tower cavity (7), a plurality of water outlet holes (10) are formed in the outer surface of the water outlet pipeline (9), an air inlet net (3) communicated with the cooling tower cavity (7) is installed on the side surface of the cooling tower (1), the air inlet net (3) is arranged on the side surface of the water outlet pipeline (9), a plurality of air outlet pipelines (17) are fixed on the upper end surface of the cooling tower (1), a fan (16) and a plurality of baffle groups (18) are fixed in the air outlet pipeline (17), the baffle groups (18) are arranged below the fan (16), and a water turning assembly is installed in the cooling tower cavity (7), the water turning assembly is arranged at the bottom of the cooling tower cavity (7) and is positioned on the side face of the air inlet net (3), and the water turning assembly is rotatably connected with the cooling tower cavity (7).

2. The recycling device of the condensed water in the electroplating solution treatment as claimed in claim 1, wherein a rotary power head (8) is fixed on the top surface of the cooling tower cavity (7), the water outlet pipe (9) is installed on the rotary power head (8) and is rotatably connected with the cooling tower cavity (7) through the rotary power head (8), the water outlet pipe (9) is in a curve shape, and the top of the cooling tower (1) is provided with a cooling tower water inlet pipe (2) communicated with the water outlet pipe (9).

3. The recycling device of the condensed water in the electroplating solution treatment according to claim 1, wherein a temperature sensor (12) and a cooling tower water outlet pipe (4) are installed at the bottom of the cooling tower (1), the temperature sensor (12) is electrically connected with a fan (16), a valve body (11) is installed on the cooling tower water outlet pipe (4), an upper liquid level switch (5) and a lower liquid level switch (6) are installed on the side surface of the cooling tower water outlet pipe (4), and the upper liquid level switch (5) is located above the lower liquid level switch (6).

4. The recycling device of the condensed water in the electroplating solution treatment as claimed in claim 3, wherein the water turning assembly comprises a rotating frame (14), rotating shafts (13) are fixed on two vertical columns of the rotating frame (14), the rotating frame (14) is installed in the cooling tower cavity (7) through the two rotating shafts (13) and is rotatably connected with the cooling tower cavity (7), the rotating shafts (13) and the bottom of the air inlet net (3) are located on the same horizontal plane, and water turning spoons (15) are fixed on two horizontal shafts of the rotating frame (14).

5. The recycling apparatus of condensed water in electroplating bath treatment as claimed in claim 4, wherein said upper level switch (5) is disposed below the air inlet net (3), said upper level switch (5) is electrically connected to the valve body (11), and said lower level switch (6) is disposed below the rotating shaft (13) and has a vertical distance to the rotating shaft (13) equal to a distance from the scoop (15) to the rotating shaft (13).

6. The recycling device of condensed water in electroplating solution treatment according to claim 1, wherein the baffle group (18) comprises a first plate (19) and a second plate (22), the sum of the length of the first plate (19) and the length of the second plate (22) is greater than or equal to the inner diameter of the air outlet pipeline (17), the first plate (19) and the second plate (22) are distributed in the air outlet pipeline (17) in a left-right staggered manner, the first plate (19) is arranged above the second plate (22), a first flanging (21) facing the second plate (22) is arranged on the first plate (19), and a second flanging (20) facing the first plate (19) is arranged on the second plate (22).

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