JP3157537U - Water treatment equipment - Google Patents

Abstract

[PROBLEMS] Mainly cleaning buildings without using synthetic detergents, and using pure soap that does not burden the environment, can achieve higher cleaning power and finish aesthetics than before, and cost reductions, An apparatus for generating treated water that can be used on site and for cleaning machines is provided. SOLUTION: Pure soap can be used with treated water produced by passing tap water through an ion exchange resin cylinder 2, and further, the collection of water molecules is reduced by passing negative ion ceramic cylinder 4 or magnet cylinder or both cylinders. Thus, a water treatment apparatus that generates treated water that has high cleaning power and that does not re-adhere with dirt can be easily moved. [Selection] Figure 1

Description

  The main purpose of this device is a water treatment device that does not use synthetic detergent for building cleaning, and can be cleaned using detergents that have been confirmed to be safe, such as pure soap, which does not affect the environment. is there.

(B) In conventional building cleaning, since the detergent used was premised on tap water, synthetic detergent was used.
(B) Treated water that can be washed only with water without using a synthetic detergent has begun to be sold. This is due to electrolysis.

These have the following drawbacks.
(B) Synthetic detergents before being sold for environmental measures contain environmental hormone substances, which have serious damage to the environment.
(B) Synthetic detergents sold for environmental measures also use other synthetic surfactants such as LAS in place of nonylphenol, which is an environmental hormone substance. It became clear that there was the same effect as a substance.
In addition, since it is premised on dilution with tap water, chelating agents such as edetic acid are included, and edetic acid causes allergies such as asthma and skin rash. Because it causes kidney damage, it has an adverse effect on the health of workers engaged in work.
Many of them are hardly biodegradable in nature and place a great burden on the environment.
(C) When pure soap is diluted with tap water and cleaned, metal soap, so-called soap scum, is produced, and sewage is easily reattached, resulting in remarkable difficulty in work and a decrease in finished aesthetics.
(D) Treated water suitable for cleaning generated by electrolysis has a low capacity of the device itself and could not be used on site that requires a large amount of water.
Similarly, high-pressure washing machines used in building maintenance industry and high-pressure steam washing machines for carpets could not be supported.
In addition, if the production capacity is increased, the device becomes larger and difficult to move, and since chlorine gas is generated during production, ventilation is necessary.
(E) In recent years, office space has become office automation, and the power sources that can be used are very limited, so water treatment devices that require power when they are generated have not been able to handle all on-site situations. .
(F) Most conventional detergents for floor cleaning have the property of removing dirt while eroding the wax coating, and the gloss cannot be restored unless the number of wax applications is increased or high-concentration wax is used. was there.
(G) During cleaning, it was difficult to repair after sewage that had splashed, and after drying and reattachment, by wiping with water.

(A) Take in tap water from the tap water intake (2) provided at one end of the ion exchange resin cylinder (1).
(B) The treated water obtained through the ion exchange resin cylinder (1) is discharged from the ion exchange treated water outlet (3) provided at the other end of the resin cylinder.
(C) An ion exchange treated water outlet (3) and one end of the negative ion ceramic cylinder (4) are connected by a flexible tube.
(D) Secondary treated water is obtained by passing the ion exchange treated water obtained through the ion exchange resin cylinder (1) through the negative ion ceramic cylinder (4).
(E) By opening the ball valve (8) connected by a flexible pipe or the like from the negative ion ceramic cylinder (4), the water discharged from the treated water outlet (6) provided at the end is washed water, or Use as detergent dilution water.
(F) A wheel is provided in a water treatment apparatus having the above-described mechanism so as to be movable.
This invention is a water treatment apparatus which consists of the above structure.

  A water treatment device for obtaining secondary treated water by passing ion exchange treated water obtained through the ion exchange resin tube (1) through the magnet tube (5).

  A water treatment device for obtaining tertiary treated water by passing tap water continuously through an ion exchange resin cylinder (1), a magnet cylinder (5) and a negative ion ceramic cylinder (4).

  In order to save space when the vehicle is mounted, the salt water tank necessary for regenerating the ion exchange resin is made a detachable salt water tank (22).

  It is a perspective view of the present invention.   It is explanatory drawing which showed the state which decomposed | disassembled this invention.   It is explanatory drawing which showed the state which decomposed | disassembled the other Example of this invention.   It is explanatory drawing which showed the state which decomposed | disassembled the other Example of this invention.   It is the perspective view which showed the use condition of this invention.   It is the perspective view which showed the 2nd use condition of this invention.

Hereinafter, an embodiment for carrying out the present invention will be described with reference to FIG.
(A) An ion exchange resin regeneration device (17) is provided on the ion exchange resin cylinder (1) in order to regenerate the ion exchange resin for each appropriate amount of treated water.
(B) A tap water intake (2) and a tap water / treatment water switching lever (18) are provided at an appropriate position of the ion exchange resin recycling device (17), and the treated water generated through the ion exchange resin is discharged. An ion exchange treated water outlet (3) is provided.
(C) A different-diameter elbow (9) is connected to the ion-exchange treated water outlet (3) to allow the ion-exchange treated water to flow downward, and a long nipple (10) is provided to assist in fixing the ion-exchange resin cylinder (1). Connect.
(D) In order to connect the cap nut (20) of the flexible pipe (11) to the long nipple (10), insert the interposer socket (19) between them.
(E) The flexible pipe (11) and the negative ion ceramic cylinder (4) are connected with a cap nut.
(F) Treat the negative ion ceramic cylinder (4) so that the internal ceramic balls do not flow out.
(G) From the negative ion ceramic cylinder (4), connect the cap nut, the flexible pipe (12), and the bag nut in sequence, and then connect to the integrated flow meter (7) to check the regeneration time of the ion exchange resin. To do.
(H) From the integrated flow meter (7), connect the cap nut, flexible pipe (13), cap nut, and socket to the ball valve (8) for water stop.
(Li) From the ball valve (8), connect the socket socket, cap nut, flexible pipe (14), cap nut and socket socket in this order to help fix the treated water spout (6). Connect to long nipple (15).
(N) Connect the elbow (16) to the long nipple (15) so that the treated water can be easily taken out, and connect the hexagon nipple (21) so as to sandwich the package of the main body.
(L) Connect the treated water spout (6) to the hexagonal nipple (21).
(W) A wheel is provided at the lower part of the main body of the water treatment apparatus having the above-described mechanism so as to be movable.
The present invention has the above configuration.
When using the present invention, as shown in FIG.
(A) Connect one end of a pressure hose to the faucet of the water tap and fix it with a hose band or the like, and connect the other end to the tap water intake (2) of the main body and fix it in the same way.
(B) Connect one end of the pressure hose to the treated water spout (6), fix it, and place the other end in a container such as a pail can.
(C) Check that the ball valve (8) is closed, and open the cock of the water faucet.
When the preparation for the generation of the treated water is completed and the ball valve (8) is opened, the treated water is automatically supplied at the tap water pressure.
When used in conjunction with a cleaning machine, if the instantaneous water consumption is approximately 12 liters per minute or more, the treated water is temporarily stored in a container such as a polypeel as shown in FIG. To do.
If the instantaneous water consumption is about 12 liters per minute or less, the treated water is directly connected to the cleaning machine.
In addition, when there are a plurality of uses of the treated water, in the case of the usage pattern as shown in FIG. .

As shown in FIG. 3, the flexible tube (11) and the magnet tube (5) sequentially connected from the ion exchange resin tube (1) are connected by a cap nut, and the magnet tube (5) flows through the internal water conduit. Arrange the magnets so that the magnetic lines of force work perpendicularly to the direction of the water, so that the magnetic lines of force work more powerfully, and surround them with iron to make a closed circuit. In the same way, the tube is further surrounded by an iron plate or the like.
From the magnet cylinder (5), a cap nut, a flexible pipe (12), a cap nut, and a hooked socket are sequentially connected, and connected to an integrating flow meter (7) for confirming regeneration of the ion exchange resin.

    As shown in FIG. 4, the ion exchange resin cylinder (1), the magnet cylinder (5), and the negative ion ceramic cylinder (4) are connected using a flexible pipe or the like, and the connection is made with a cap nut or the like. Connect to.

Effect of device

By using the present invention, the following effects can be obtained.
(B) When cleaning buildings, even if pure soap that does not impact the environment is used, it is possible to obtain a cleaning effect and finished appearance that are better than conventional synthetic detergents.
(B) When cleaning buildings, it is no longer necessary to use synthetic detergents for most of the work, so the health of workers is not compromised.
(C) Pure soap can also be used for carpet cleaning, where there is an opportunity to touch the skin directly after washing, so there is no health impact from residual detergent.
(D) Because of its high ability to generate treated water, it can be applied to all cleaning machines currently used in the building maintenance industry.
Moreover, since the apparatus can be reduced in size as compared with the generation capability, it can be brought into the field.
(E) Since no power source is required when generating treated water, work can be done in the same way as before.
(F) After the sewage splashed at the time of washing, the sewage after drying and reattachment can be easily repaired.
(G) Since the cleaning power of the treated water itself is high, the detergent cost is reduced to about 1/10 to 1/20 that of conventional synthetic detergents. It can be shortened by 30%.
In addition, since the machine used for cleaning cannot be scaled, the maintenance cost of the cleaning machine can be reduced.
(H) Since there is no scale, in the case of cleaning specifications with sprinkling finish, dirt does not stick and there is no need for repair cleaning using a strong detergent. Can contribute to conservation.

DESCRIPTION OF SYMBOLS 1 Ion exchange resin cylinder 2 Tap water intake 3 Ion exchange treated water outlet 4 Negative ion ceramic cylinder 5 Magnet cylinder 6 Treated water outlet 7 Accumulated flow meter 8 Ball valve 9 Different diameter elbow 10 Long nipple 11 Flexible pipe 12 Flexible pipe 13 Flexible pipe 14 Flexible pipe 15 Long nipple 16 Elbow 17 Ion exchange resin regeneration device 18 Tap water / treated water switching lever 19 Tap socket 20 Cap nut 21 Hex nipple 22 Removable salt water tank

Claims (4)

(B) A tap water inlet (2) is provided at one end of the ion exchange resin cylinder (1), and an ion exchange treated water outlet (3) through which water passes through the resin cylinder is provided at the other end.
(B) Connect the ion exchange treated water outlet (3) and one end of the negative ion ceramic cylinder (4) with a flexible tube.
(C) The treated water outlet (6) is connected to the tip of the negative ion ceramic cylinder (4) with a flexible pipe or the like.
A water treatment apparatus that has a water treatment mechanism configured as described above and is provided with wheels so that it can be easily adapted to any cleaning site and cleaning equipment.   The water treatment apparatus according to claim 1, wherein the negative ion ceramic cylinder (4) is a magnet cylinder (5) provided with a similar water inlet and outlet.   The water treatment apparatus of Claim 1 which connected the ion exchange resin cylinder (1), the magnet cylinder (5), and the negative ion ceramic cylinder (4).   4. The water treatment apparatus according to claim 1, wherein the salt water tank for regenerating the ion exchange resin is a detachable salt water tank (22) that can be separated from the main body.

Images