JP2566425Y2 - Electrophotographic developer supply device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an electrophotographic developer supply device. More specifically, a part of a material constituting an electrophotographic developer supply valve is 80 to 80%.
The present invention relates to an electrophotographic developer supply device that is sealed or joined with a low-temperature fusible metal that melts at 200 ° C.

[Conventional technology]

Electrophotographic developers (liquid developers, dry toners) are filled in polyethylene bottles and supplied to the liquid developers and carrier liquids by a feeder cap method.

In the feeder cap method, a liquid developer or dry toner is supplied by pushing up the nozzle.

By the way, the supply port of the developer in the feeder cap is not allowed to increase in capacity because of the risk of spontaneous dropping and the demand for improved reliability for quantitative supply, and the amount of developer supplied at one time is 5 to 10 g. Met. Therefore, if an attempt is made to increase the solid content of the developer, the toner viscosity increases, and the developer is not sufficiently supplied through the feeder cap. In order to cope with an increase in the speed of the copying machine, which is a problem required for the copying machine, it is necessary to increase the supply amount of the developing solution and the dry toner, and the conventional method has a disadvantage that the supply amount is insufficient.

In order to eliminate such a drawback, a method of supplying an electrophotographic developer by an electrophotographic developer supply device (Japanese Utility Model Application Laid-Open No.
No.-153560 and Japanese Utility Model Application Laid-Open No. 1-153561), and those charged in an electrophotographic developer injection supply device (Japanese Utility Model Application No. 1-125457).
Publication).

By using this electrophotographic developer supply device,
Clothes and the like are less likely to be stained by the electrophotographic developer, and it has become possible to quantitatively replenish the required amount of an electrophotographic developer having a high solid content, a high viscosity, and a thixotropic property.

However, since LPG and the like are used as the jetting gas, there is a constant risk of flame during use, and it is necessary to take measures against problems such as environmental pollution. When the temperature rises above, the temperature in the electrophotographic developer supply device also rises rapidly, so that the solvent in the pressure generating developer is heated,
There is a danger that the vapor pressure increases the internal pressure, explodes, and the entire copying machine burns.

[Problems to be solved by the invention]

An object of the present invention is to provide an electrophotographic developer supply device capable of quickly supplying a fixed amount of an electrophotographic developer having a high solid content or a high viscosity even if the content is high. Another object of the present invention is to provide an electrophotographic developer supply apparatus which prevents an internal pressure from being increased due to heating and causing an explosion flame.

[Means for solving the problem]

According to the invention, a part of the material constituting the electrophotographic developer supply valve of the electrophotographic developer supply device including the solvent containing the electrophotographic developer and the propellant for extruding the electrophotographic developer has a temperature of 80 to 200 ° C. And an electrophotographic developer supply device characterized by being constituted by a low-temperature fusible metal that melts at a temperature.

The present inventors have conducted studies to eliminate the problems of the electrophotographic developer supply device and the danger caused thereby, and found that a part of the mountain cup portion of the electrophotographic developer supply valve has a low-temperature melting property. The use of metal proved to be extremely effective. This invention has been made.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

The drawing (FIG. 1) schematically shows the pressurized can according to the present invention, wherein 1 is a container body, 2 is a spray button, and 3 is a mountain cup portion of a valve.

The electrophotographic developer supply valve of the present invention is a portion provided for supplying the electrophotographic developer, and specifically, a valve for supplying the electrophotographic developer, a mountain cup portion for fixing the valve portion, and Refers to the upper lid that joins the mountain cup and the upper lid.

A single or mixed gas such as LPG, propane, N ₂ , and CO ₂ is used as the pressure source. After the contents such as the developer are filled in the apparatus main body 1, the ejection button 2 of the electrophotographic developer supply valve according to the present invention is attached to the container main body 1 to obtain a product.

By the way, the outer wall of such an electrophotographic developer supply device is generally made of tinplate, aluminum or the like, and can withstand an internal pressure up to about 15 kg / cm ² .
However, as mentioned above, if this is heated for some reason, the internal pressure will increase by 15 kg / cm ² due to the increase in vapor pressure.
As described above, when the temperature further rises, the sealed pressurized can explodes. Therefore, in the present invention, a low-temperature fusible metal that melts at a temperature of 80 to 200 ° C. is used for a part of the mountain cup portion of the electrophotographic developer supply valve 3 of the electrophotographic developer supply device. When heated to a certain temperature, the low-melting metal constituting the valve is melted, and the resulting small holes are opened, from which the contents and / or a pressure source (electrophotographic developer dissolved in a solvent) are exposed. And the propellant) (mainly the pressure source) is discharged, whereby the pressure can be reduced. As a result, it is possible to prevent explosion and flame from occurring in the abnormal situation of the copying machine.

The low-temperature fusible metal is specifically an alloy containing at least one metal of Pb, Sn, and Bi. A small hole is previously formed in a part of the mountain cup portion of the valve, and the small hole is melted at a low temperature. An electrophotographic developer supply device is formed by sealing or bonding with a conductive metal. In this way, the electrophotographic developer supply device made are those which are sufficiently resistant to 15 kg / cm ² before and after the internal pressure at normal temperature, abnormal material is melted at high temperatures of the copying machine, from the small hole portions so small pitting Drain the contents. As a result, the gas for injection and the solvent of the electrophotographic developer flow out, so that the internal pressure decreases.

(No.1) Pb (40%)-Sn (58%)-Sb (2%) (No. 2) Pb (50%)-Sn (50%) (No. 3) Pb (60%)-Sn (38%)-Sb (2%) (No. 4) Pb (40%)-Sn (38%)-Cd (19%)-Zn (2%)
(No. 5) Pb (40%)-Sn (20%)-Bi (40%) (No. 6) Pb (96%)-Ag (3%)-In (1%) (No. 7) ) Pb (30%)-Sn (30%)-Ni (40%) (No.8) Pb (40%)-Sb (10%)-Al (40%)-Sn (10
%) (No. 9) Pb (50%)-Bi (50%). The percentages in parentheses are% by weight.

〔Example〕

Next, examples will be described. This invention is not limited to these.

Example 1 An aluminum electrophotographic developer supply device having an internal volume of 210 ml similar to that shown in FIG. 1 was prepared by mixing 100 g of a liquid developer, 0.5 g of sodium bicarbonate and 1.4 g of citric acid of Production Example 1 below. After filling, a small hole having a diameter of 3 mm was previously opened in the mountain cup portion of the electrophotographic developer supply valve of the electrophotographic developer supply device, and the small hole was filled with the No. 1 low-temperature melting metal. This electrophotographic developer supply device was put into an incinerator.
No explosion occurred. It is considered that due to the heating, the alloy sealing the small hole portion of the valve was melted, and the contents flowed out of the small hole.

(Liquid developer of Production Example 1) Phthalocyanine blue (manufactured by Dainichi Seika Co., Ltd.) 500 g LMA / GMA / MAA (molar ratio 80/10/10) copolymer 100 g Kerosene A mixture consisting of 500 g was dispersed in a ball mill for 48 hours. , A wet toner (solid content: 54.5%, viscosity: 580 cp).

Example 2 A liquid developer 10 of the following Production Example 2 was placed in an aluminum back-in can having an inner volume of 210 ml similar to that shown in FIG.
0 g, and two small holes having a diameter of 0.3 mm were made in the mountain cup portion of the electrophotographic developer supply valve.
A liquid developer supply device was prepared in which a small hole was covered with a low-temperature melting metal and the internal pressure was adjusted to 10 kg / cm ² with butane gas. The device was placed in an incinerator but no explosion occurred. This is presumably because, as in Example 1, the alloy that sealed the small hole portion of the valve was melted by heating, and the contents flowed out of the small hole.

(Liquid developer of Production Example 2) Special black 40 (manufactured by Degussa) 500 g SMA / vinyl pyridine (molar ratio 90/10) copolymer 100 g Isopar H A mixture of 600 g was dispersed with an attritor for 20 hours, and wet toner was used. (Solids 60%, viscosity 960 cp).

Example 3 80 g of the liquid developer of Production Example 3 described below was placed in a 210 ml aluminum piston can container having the same contents as shown in FIG.
Filled, and the diameter 2.
Drill a small hole of 5 mm, install a valve that closed the small hole with the low-temperature fusible metal of No. 9 above, and set the internal pressure to 6 kg / cm with Freon gas.
A liquid developer supply device pressurized to ² was manufactured. The device was put into incineration but no explosion occurred. This is presumably because, as in Example 1, the alloy in the small hole portion of the valve was melted by pressurization, and the contents flowed out from the small hole.

(Liquid developer of Production Example 3) Purinlux-V (manufactured by Degussa Corporation, brushing colorant 200 g / E-300.30)
0g) 500g CMA / AMA / MMA (molar ratio 85/5/10) copolymer 100g Isobar E A mixture of 5,400g was dispersed with a Keddy mill for 6 hours to prepare a wet toner (solid content: 9.8%, viscosity: 15cp). .

Comparative Example 1 A liquid developer supply device was manufactured without applying the means as in Example 1 to the mountain cup portion of the valve. This electrophotographic developer supply was found to burn with a large explosion in an incinerator.

Example 4 and Comparative Example 2 A comparison of experiments based on which part of the electrophotographic developer supply device is provided with a portion composed of a low-temperature fusible metal is as follows.

[Effects of the Invention] According to the invention, the following effects are provided.

(1) Due to the internal pressure, a fixed amount can be smoothly discharged even if the content has a high solid content and a high viscosity.

(2) Even when exposed to high temperatures (such as when exposed to a flame or when thrown into an incinerator), the low-temperature fusible metal is melted and small holes are formed. Can be held down.

As a result, an electrophotographic developer supply apparatus capable of preventing a flame explosion of a copying machine when the temperature of the copying machine becomes abnormally high due to a malfunction of the copying machine is obtained.

[Brief description of the drawings]

FIG. 1 shows an example of an electrophotographic developer supply device equipped with a safety valve according to the present invention. 1. Electrophotographic developer supply device 2. Injection button 3. Mountain cup portion of electrophotographic developer supply valve

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Hidemi Uematsu 1-3-6 Nakamagome, Ota-ku, Tokyo Inside Ricoh Company, Ltd. (56) References JP 50-21334 (JP, A)

Claims (1)

(57) [Scope of request for utility model registration] 1. An electrophotographic developer supply valve including an electrophotographic developer supply device including a solvent containing the electrophotographic developer and a propellant for extruding the electrophotographic developer includes a part of a material constituting an electrophotographic developer supply valve.
An electrophotographic developer supply device comprising a low-temperature fusible metal that melts at 80 to 200 ° C.