CN110586203A - Full-life-cycle deionized resin tank and use method thereof - Google Patents

Abstract

The invention belongs to the technical field of coolant deionization, and discloses a full-life-cycle deionization resin tank and a using method thereof.A tank body of the deionization resin tank is connected in parallel, so that the adsorption capacity of the deionization resin tank is increased; through the improved tank structure, the distribution of the fluid is improved, the deionized resin is fully utilized, and the flow resistance is reduced; the lower end of the tank body of the deionized resin tank is provided with a water inlet, and two sub tank bodies are respectively arranged on two sides of the tank body; the middle part of the tank body is provided with a middle pipe, the outer part of the middle pipe is wrapped with a porous tubular wall, and the outer side of the porous tubular wall is wrapped with non-woven fabrics; the upper end of the tank body is provided with a water collecting plate. This full life cycle's deionization resin jar connects in parallel has two deionization jar bodies, has increased the adsorption capacity of deionization resin jar, has improved jar body mesostructure, is favorable to improving the distribution of fluid, make full use of deionization resin to the flow resistance has been reduced.

Description

Full-life-cycle deionized resin tank and use method thereof

Technical Field

The invention belongs to the technical field of coolant deionization, and particularly relates to a full-life-cycle deionized resin tank.

Background

Currently, the current state of the art commonly used in the industry is such that: a fuel cell vehicle is a new energy vehicle using hydrogen energy, and a cooling system maintains the temperature of a fuel cell at an appropriate temperature while the fuel cell vehicle is operating. However, the ion conductivity of the coolant increases due to the ion deposition in the fuel cell stack and the cooling line, and short-circuiting of the stack is likely to occur. Therefore, fuel cell vehicles require a deionizing resin tank to reduce the ionic conductivity of the cooling circuit. The traditional deionization tank for the vehicle generally adopts a straight cylinder structure, and anion and cation resin is uniformly mixed and then directly filled into a tank body. The diameter of the anion and cation resin is about 100 μm, and the diameter of the anion and cation resin is reduced to improve the adsorption capacity. The anion and cation resin with small diameter is accumulated in the tank body, the accumulation density is high, and the liquid is discharged after passing through all the resin from the bottom of the tank body, so the fluid resistance is high. In addition, because the adsorption capacity of the ion resin in the tank body is limited, the ion resin tank needs to be replaced after the ion resin tank reaches the service life for a long time.

In summary, the problems of the prior art are as follows:

(1) the service life of the commonly used deionized resin tank is limited, and the deionized resin tank needs to be replaced frequently in the life cycle of the automobile

(2) In the traditional deionization tank, the resin is mixed and directly filled into the tank body, and the liquid is discharged after passing through all the resin from the bottom of the tank body, so that the fluid resistance is high.

The difficulty of solving the technical problems is as follows:

because the adsorption capacity of the anion and cation resin is limited, the ion resin is saturated in adsorption in the long-term use process, and the service life of the deionized resin tank is reached. The diameter of the anion and cation resin is about 100 μm, and the diameter of the anion and cation resin is reduced to improve the adsorption capacity. The anion and cation resin with small diameter is accumulated in the tank body, and the accumulation density is high, so that the resistance of liquid flow is high.

The significance of solving the technical problems is as follows:

the service life of the ionic resin tank is prolonged, and the use of the automobile in the whole life cycle is met, so that the quality and the safety of the automobile are guaranteed. The resistance of the ion tank is reduced, the deionization effect is increased, and the energy consumption of the water pump is reduced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a full-life-cycle deionized resin tank and a using method thereof.

The invention is realized in such a way that the using method of the full-life-cycle deionized resin tank comprises the following steps:

the two deionization tank bodies are connected in parallel, fluid enters the middle porous tubular wall from the middle of the lower end, flows in from the porous tubular wall, penetrates through the pipe wall with holes and the non-woven fabric, passes through the anion and cation deionization resin on the periphery of the tank bodies, flows upwards under the water pressure, and is collected to the water outlet at the upper end after passing through the filter screen. Thereby improving the distribution of the fluid, fully utilizing the deionized resin and reducing the flow resistance.

The invention also aims to provide a full-life-cycle deionized resin tank which is provided with a tank body, wherein the lower end of the tank body is provided with a water inlet, and two sub tank bodies are respectively arranged on two sides of the tank body;

the middle part of the tank body is provided with a middle pipe, the outer part of the middle pipe is wrapped with a porous tubular wall, and the outer side of the porous tubular wall is wrapped with non-woven fabrics; the upper end of the tank body is provided with a water collecting plate.

Furthermore, anion and cation resin is filled in the sub-tank body.

Further, a water outlet is spirally arranged at the upper end of the tank body.

Further, the porous tubular wall comprises one of a perforated stainless steel tube, a stainless steel mesh, a perforated plastic tube, and a plastic mesh.

Further, a filter screen is arranged between the tank body and the water collecting end plate.

Furthermore, a reinforcing rib is arranged on the water collecting plate.

Furthermore, a water outlet pipe is installed on the water outlet, and a reinforcing rib is arranged on the water outlet pipe.

In summary, the advantages and positive effects of the invention are:

according to the improved tank body structure, fluid enters from the middle of the lower end and exits from the periphery of the upper end, namely, the fluid flows in from the middle pipe, passes through the pipe wall with the holes and the non-woven fabric, passes through the anion and cation deionization resin on the periphery of the tank body, flows upwards under the water pressure, passes through the filter screen and then is collected to the water outlet at the upper end. Thereby improving the distribution of the fluid, fully utilizing the deionized resin and reducing the flow resistance.

Drawings

Fig. 1 is a schematic diagram of an internal structure of a deionization tank according to an embodiment of the present invention.

In the figure: 1. a water inlet; 2. a water outlet; 3. filtering with a screen; 4. anion and cation resin; 5. non-woven fabrics; 6. a porous tubular wall.

Fig. 2 is a perspective view of a deionization tank provided in an embodiment of the present invention.

Fig. 3 is a schematic diagram of a deionization tank according to an embodiment of the present invention.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

The service life of the commonly used deionized resin tank is limited, and the deionized resin tank needs to be replaced frequently in the life cycle of the automobile; in the traditional deionization tank, the resin is mixed and directly filled into the tank body, and the liquid is discharged after passing through all the resin from the bottom of the tank body, so that the fluid resistance is high.

In view of the problems of the prior art, the present invention provides a full-life cycle deionization resin tank and a method for using the same, which are described in detail below with reference to the accompanying drawings.

The application method of the full-life-cycle deionized resin tank provided by the embodiment of the invention comprises the following steps:

the two deionization tank bodies are connected in parallel, fluid enters the middle porous tubular wall from the middle of the lower end, flows in from the porous tubular wall, penetrates through the pipe wall with holes and the non-woven fabric, passes through the anion and cation deionization resin on the periphery of the tank bodies, flows upwards under the water pressure, and is collected to the water outlet at the upper end after passing through the filter screen.

The invention connects two deionization tank bodies in parallel, and increases the adsorption capacity of the deionization resin tank.

Through the improved tank structure, the distribution of the fluid is improved, the deionized resin is fully utilized, and the flow resistance is reduced.

As shown in fig. 1, the full-life-cycle deionization resin tank provided by the embodiment of the present invention is connected in parallel with two deionization tank bodies, so that the adsorption capacity of the deionization resin tank is increased, the structure in the tank body is improved, the fluid distribution is improved, the deionization resin is fully utilized, and the flow resistance is reduced. The full life cycle deionized resin tank is composed of a PP plastic tank body, a plastic end cover, a filter screen 3 and non-woven fabrics 5.

This full life cycle's deionization resin jar is provided with a jar body, jar body lower extreme sets up water inlet 1, and the fluid evenly shunts through lower end plate and gets into two branch jar bodies.

Tank body division: fluid enters from the middle of the lower end and flows out from the periphery of the upper end, namely, the fluid flows in from the middle pipe, passes through the pipe wall with holes and the non-woven fabric 5, passes through the anion and cation deionization resin on the periphery of the tank body, flows upwards under the water pressure, passes through the filter screen 3 and then is converged to the water outlet 2 on the upper end. Tank body division: the outer wall of the porous tubular wall 6 is tightly attached to the non-woven fabric 5. Wherein the porous tubular wall 6 comprises porous tubular materials such as a porous stainless steel tube, a stainless steel mesh (rolled into a tube), a porous plastic tube, a plastic mesh (rolled into a tube) and the like.

Anion and cation resin 4 which is uniformly mixed is arranged between the non-woven fabric 5 and the inner wall of the tank body. A filter screen 3 is arranged between the upper end of the tank body and the water collecting end plate. The water collecting end plate and the water outlet pipeline are designed with structural reinforcing ribs, and the filter screen 3 can be made of permeable porous materials such as stainless steel meshes, non-woven fabrics 5 and the like.

The working principle part is as follows:

the invention innovatively improves the structure in the tank body, and liquid enters the middle pipe from the bottom and passes through the pipe wall with the holes and the non-woven fabric, so that the tank body is quickly filled with the liquid, the path of the liquid is reduced, and the resistance is reduced. In addition, the two tank bodies are connected in parallel, so that the ion adsorption capacity of the traditional resin tank is twice that of the traditional resin tank, and the effect of the full life cycle is achieved.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims (8)

1. A method of using a full life cycle deionization resin tank, comprising:

the two deionization tank bodies are connected in parallel, fluid enters the middle porous tubular wall from the middle of the lower end, flows in from the porous tubular wall, penetrates through the pipe wall with holes and the non-woven fabric, passes through the anion and cation deionization resin on the periphery of the tank bodies, flows upwards under the water pressure, and is collected to the water outlet at the upper end after passing through the filter screen.

2. The full-life cycle deionized resin tank is characterized in that the full-life cycle deionized resin tank is provided with a tank body, the lower end of the tank body is provided with a water inlet, and two sub tank bodies are respectively arranged on two sides of the tank body;

the middle part of the tank body is provided with a middle pipe, the outer part of the middle pipe is wrapped with a porous tubular wall, and the outer side of the porous tubular wall is wrapped with non-woven fabrics; the upper end of the tank body is provided with a water collecting plate.

3. The full-life cycle deionizing resin tank as claimed in claim 2, wherein the interior of said sub-tank body is filled with an anionic and cationic resin.

4. The full life cycle resin deionization tank as claimed in claim 2 wherein the upper end of said tank body is spirally fitted with a water outlet.

5. The full-life cycle deionizing resin tank as claimed in claim 2 wherein said porous tubular wall comprises one of a perforated stainless steel tube, a stainless steel mesh, a perforated plastic tube, a plastic mesh.

6. The full life cycle resin deionization tank as claimed in claim 2 wherein a screen is installed between said tank body and the water collection end plate.

7. The full life cycle resin deionization tank as claimed in claim 2 wherein said water collection sheet is provided with reinforcing ribs.

8. The full-life cycle deionizing resin tank as claimed in claim 2, wherein said water outlet is provided with a water outlet pipe, and said water outlet pipe is provided with a reinforcing rib.