JPH0568558B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention involves heating a plating solution to a predetermined temperature,
This relates to a heating/keeping device for plating liquid that is kept warm at that temperature, and in particular, it is a heating/keeping device suitable for heating and keeping plating liquid that is easily thermally decomposed, which is used when processing diamond electrodeposited grindstones. It is.

(Prior Art) A diamond electrodeposited grindstone is manufactured by a method of electrodepositing diamond abrasive grains on a base metal by plating. In that case, if compressive stress is applied to the base metal by plating, the resulting product will be highly durable and good. Such plating can be achieved by using certain plating solutions at specific temperature conditions. The plating liquid is easily thermally decomposed. Moreover, when using the device, it is necessary to heat it to a temperature higher than room temperature, for example, about 50° C., and keep it warm at that temperature.

Conventionally, when heating and keeping the plating liquid warm, an electric heater is placed in the plating liquid tank and the heater is used to directly heat the plating liquid, or the plating liquid is heated directly inside the plating liquid tank. The plating solution was heated by immersing a heat exchanger and passing steam or boiling water through the heat exchanger.

(Problem to be Solved by the Invention) However, since the temperature of the heating surface of an electric heater becomes extremely high, when directly heating the plating liquid with the heater, there is no need to contact the heating surface of the heater. The surumetsuki liquid will thermally decompose. Further, even when a heat exchanger is used, a similar problem occurs when high-temperature steam or boiling water is passed through the heat exchanger. Since such a special plating solution is expensive, if the plating solution thermally decomposes and its life is shortened, the cost of the product will be affected accordingly.

It is possible to heat the plating solution while suppressing thermal decomposition by flowing relatively low-temperature hot water through a heat exchanger, but the capacity of the plating solution tank is large, and the plating solution to be heated is Since the amount is large, it will take a long time for the plating solution to reach the predetermined temperature. It would be good if the heat exchanger had a large capacity, but since the plating work is done in the plating liquid tank, it is necessary to use a large heat exchanger in order to secure the work space. I can't do it either.

Moreover, since the plating liquid used for the above-mentioned plating is strongly acidic and highly corrosive, there is also the problem that metal heaters and heat exchangers are corroded when immersed in the plating liquid.

In addition, when metal heaters, heat exchangers, etc. are brought into contact with the plating solution, metal ions such as iron ions are eluted from the metal parts and mixed into the plating solution. The lifespan of will be further shortened.

The present invention was made in view of these problems, and its purpose is to quickly heat the plating solution without deteriorating the plating solution due to thermal decomposition or contamination with metal ions. An object of the present invention is to obtain a heating/warming device for a plating solution that can be kept at a certain temperature.

(Means for Solving the Problems) In order to achieve this object, in the present invention, in addition to a plating liquid tank filled with plating liquid, a heating tank and a heat retention tank filled with hot water are provided, and the heating tank is heated. The hot water in the plating liquid tank and the heating tank are heated and kept at approximately a predetermined temperature by heaters, and the water inside the plating liquid tank is passed through a heating hose arranged spirally inside the heating tank. The plating liquid is circulated, and the hot water in the heat insulating tank is circulated through a heat insulating hose installed at the bottom of the plating liquid tank.

These hoses are said to be made of corrosion-resistant resin such as vinyl resin.

(Function) With this configuration, the plating liquid can
While circulating through the heating hose, it is heated in the heating tank by the hot water inside it. In that case, the heating hose is arranged in a spiral shape inside the heating tank, and the contact area between the heating hose and the hot water is made sufficiently large, so that the hot water in the heating tank is kept at a relatively low temperature. Even if the plating liquid flows through the heating hose, it will be reliably heated.

In addition, by circulating the hot water in the heat retention tank through a heat retention hose installed in the plating liquid tank,
The plating solution is also heated in the plating solution tank. In that case, the heat-retaining hose only needs to have the ability to keep the plating liquid in the plating liquid tank warm, so it is only necessary to arrange it along the bottom surface of the plating liquid tank. Therefore, a sufficient working space within the plating liquid tank can be secured.

By doing so, the hot water in the heating tank and the heat insulating tank can be kept at a relatively low temperature, so that thermal decomposition of the plating solution can be reliably prevented.

Furthermore, since relatively low-temperature hot water can be used in this way, the heating hose and the heat-retaining hose are not required to have particularly high heat resistance. Therefore, these hoses can be made of resin. As a result, metal ions such as iron ions are prevented from being mixed into the plating solution.

(Example) Hereinafter, an example of the present invention will be described using the drawings.

The figures show an embodiment of the plating solution heating and insulating device according to the present invention, and FIG. 1 is a perspective view of the entire device, and FIGS. 2 and 3 are perspective views of a portion thereof. be.

As is clear from FIG. 1, on one side of the plating liquid tank 1, there are provided a heating tank 2 and a heat retaining tank 3, each having a smaller capacity. The plating liquid tank 1 is filled with plating liquid. The optimum temperature for use of the plating liquid is, for example, 50°C. Further, the heating tank 2 and the heat retaining tank 3 are each filled with warm water. The hot water is heated by electric heaters 4 and 5 attached to the heating tank 2 and the heat-retaining tank 3, respectively, and is maintained at a temperature of, for example, 55 to 60°C.

As shown in FIG. 2, a heating hose 6 made of a resin material with high corrosion resistance, such as a vinyl hose, is disposed within the heating tank 2. As shown in FIG. The hose 6 is spirally wound in multiple layers in the vertical direction and supported by struts 7, 7, . . . erected at appropriate intervals in the circumferential direction. As shown in FIG. 4, the support column 7 is provided with approximately semicircular notches 8, 8, . . . vertically at intervals slightly larger than the diameter of the hose 6. By fitting the hose 6 into the holes 8, 8, . . . , the hose 6 is supported with a gap provided vertically.

Both ends of the heating hose 6 are inserted into the plating liquid tank 1 so as to open into the plating liquid.
A plating liquid circulation pump 9 is provided in a portion of the hose 6 located between the plating liquid tank 1 and the heating tank 2. In this way, the plating liquid in the plating liquid tank 1 is sucked by the pump 9, and the heating hose 6 is wound spirally from the bottom to the top in the heating tank 2.
The liquid is passed through the plating liquid tank 1 and returned to the plating liquid tank 1 again.

Further, as shown in FIG. 3, inside the plating liquid tank 1, a heat-retaining hose 10 is arranged in a zigzag pattern along the bottom surface thereof. Like the heating hose 6, this hose 10 is also made of a highly corrosion-resistant resin material such as a vinyl hose. Both ends of the hose 10 are inserted into the heat-retaining tank 3 and opened into the hot water in the heat-retaining tank 3. that hose 10
A hot water circulation pump 11 is provided between the plating liquid tank 1 and the heat retention tank 3, and the pump 11 circulates hot water in the heat retention tank 3 through a heat retention hose 10. .

Next, the operation of the heating/warming device configured in this way will be explained.

When plating is to be performed, the heaters 4 and 5 are turned on to heat the water in the heating tank 2 and the heat-retaining tank 3. Then, the water becomes warm water at 55 to 60 degrees Celsius. In that case, since the capacities of the heating tank 2 and the heat-retaining tank 3 are relatively small, the heating is performed quickly.

After the water in the heating tank 2 and the heat-retaining tank 3 is heated in this manner, or during the heating process, the plating liquid circulation pump 9 and the hot water circulation pump 11 are operated. When the plating liquid circulation pump 9 operates, the plating liquid in the plating liquid tank 1 is circulated through the heating hose 6. The hose 6 is arranged in a spiral shape within the heating tank 2, and the portion immersed in the warm water inside thereof has a long path. Moreover, that hose 6
A gap is also provided between the top and bottom of the hose 6 so that the hot water comes into contact with the entire circumference of the hose 6. Therefore, the plating liquid is sufficiently heated while passing through the portion of the hose 6 located within the heating tank 2. In this way, the low-temperature plating liquid in the plating liquid tank 1 is drawn out, warmed, and then returned, whereby the plating liquid in the plating liquid tank 1 is rapidly heated.

On the other hand, by operating the hot water circulation pump 11, the hot water in the heat retention tank 3 is circulated through the heat retention hose 10. The hose 10 is arranged in a zigzag pattern on the bottom of the plating liquid tank 1.
The inner part is considered to be the long route. Therefore,
The hot water flowing through the hose 10 radiates heat within the plating liquid tank 1, and the plating liquid in the plating liquid tank 1 is heated by the heat. In that case, since the hose 10 is disposed along the bottom of the plating liquid tank 1, the low temperature plating liquid that accumulates at the bottom of the plating liquid tank 1 is heated, resulting in effective heating. Warmth is done. Then, the hot water whose temperature has decreased by radiating heat is returned to the heat-retaining tank 3 and heated.

In this way, the plating liquid is heated inside and outside the plating liquid tank 1, so that the temperature of the plating liquid reaches the target temperature in a short time. The temperature thereof is approximately 50° C., which is slightly lower than the temperature of the hot water in the heating tank 2 and the warming tank 3, due to heat radiation, heat transfer loss, and the like. Therefore, if this state continues, the plating solution will be maintained at a predetermined temperature.

During this time, the plating liquid is mainly heated in the heating tank 2, so the heat-retaining hose 10 in the plating liquid tank 1 heats the low-temperature plating liquid accumulated at the bottom of the plating liquid tank 1. It would be good if there was a function to do so. Therefore, the hose 10 fits into the liquid tank 1.
The plating liquid tank 1 may be disposed along the bottom surface of the plating liquid tank 1, and a sufficient effective space can be secured within the plating liquid tank 1.

Further, the temperature of the hot water in the heating tank 2 and the heat-retaining tank 3 may be set to a temperature slightly higher than the target temperature of the plating solution, and thermal decomposition of the plating solution can be reliably prevented.

Furthermore, by keeping the temperature of the hot water low, it becomes possible to use resin materials as the heating hose 6 and the insulation hose 10, so iron ions, etc. can be removed from these hoses 6 and 10. It is possible to eliminate the elution of metal ions. Therefore, the life of the plating solution can be extended.

The plating liquid comes into direct contact only with the plating liquid circulation pump 9, other than the heating hose 6 and the heat insulation hose 10, and the hoses 6 and 10 may be ordinary vinyl hoses, which are highly corrosion-resistant. Since various types of pumps are commercially available for use with chemicals, etc., they can be easily applied to heating and keeping a highly corrosive plating solution warm.

When the plating solution was actually heated using this heating and insulating device, the time required for the plating solution to reach a predetermined temperature was 0.5 hours. Also,
The temperature thereafter was also maintained at 50±1°C.

On the other hand, when the same plating solution was heated directly using an electric heater as in the past, it took 2.0 hours to reach the specified temperature, and the temperature thereafter was only 50±5℃. It changed quite a lot.

This is thought to be because the heating/warming device according to the present invention warms the plating liquid as a whole, whereas the heater heats the plating liquid locally. Further, in the present invention, since the plating liquid is indirectly heated through hot water with little temperature change, the temperature of the plating liquid is also accurately controlled.

Furthermore, although it was possible to use the tamping liquid using the heating device of the present invention for three months, the tamping liquid heated and kept warm by the heater became unusable after one month. . That is, by using the heating/warming device of the present invention, the life of the plating solution could be extended three times.

(Effects of the Invention) As is clear from the above description, according to the present invention, a heating tank and a heat-retaining tank are provided outside the plating liquid tank to generate hot water, and the In addition to circulating the plating solution through the heating hose,
Since hot water is circulated through a heat-retaining hose installed in the plating liquid tank, the plating liquid is quickly heated to the specified temperature without thermal decomposition of the plating liquid. It can be kept warm by temperature. Moreover, since the heating hose and the heat retaining hose are made of resin, metal ions such as iron ions are not eluted from these hoses and mixed into the plating solution. Therefore,
It is possible to obtain a plated product of good quality, and also to reduce its cost.

Furthermore, since the only parts that come into contact with the plating liquid are the heating and heat-retaining hoses and the plating liquid circulation pump, it is possible to easily handle cases where the plating liquid is highly corrosive. Therefore, the flexibility of the plating solution to be used can be increased.

Furthermore, since the plating liquid is mainly heated in a heating tank outside the plating liquid tank, it is only necessary to install a heat-retaining hose at the bottom of the plating liquid tank. Sufficient work space can also be secured.

[Brief explanation of the drawing]

FIG. 1 is an overall perspective view showing an embodiment of a plating solution heating and insulation device according to the present invention, and FIG. 2 is a heating hose installed in a heating tank of the heating and insulation device. FIG. 3 is a perspective view showing the state of the heat-retaining hose installed in the plating liquid tank of the heating and heat-retaining device. FIG. 4 is a perspective view taken from the - line in FIG. 2. It is a sectional view showing a supported state of the heating hose. 1... Plating liquid tank, 2... Warming tank, 3... Heat retention tank, 4, 5... Heater, 6... Warming hose, 9
...Plating liquid circulation pump, 10...Heat insulation hose, 11...Hot water circulation pump.

Claims (1)

[Scope of Claims] 1. A plating liquid tank filled with a plating liquid that is easily decomposed by heat; a heating tank and a heat-retaining tank each filled with warm water that is heated by a heater and maintained at approximately a predetermined temperature; A heating hose made of a corrosion-resistant resin is arranged spirally inside the heating tank and connected at both ends to the plating liquid tank, and the plating liquid is passed through the heating hose. a plating liquid circulation pump that circulates the plating liquid in the tank; and a heat-retaining pump made of corrosion-resistant resin that is disposed along the bottom of the plating liquid tank and connected at both ends to the heat-insulating tank. A plating solution heating device comprising: a hose; and a hot water circulation pump that circulates hot water in the heat insulating tank through the heat insulating hose.