JP2007070478A - Toner feeding roller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a toner feeding roller having high opening ratio of cell, sufficiently low hardness and excellent compression set even under high temperature and humidity condition. <P>SOLUTION: The toner feeding roller is provided with a core metal and a roller-shaped surface layer formed on the outer circumference of the core metal and made of a foamed elastomer. The foamed elastomer is produced by mixing and foaming at least (A) a polyol component containing a prescribed polyether polyol component (B) having an ethylene oxide unit at a terminal and a prescribed polyether polyol component (C) free from ethylene oxide unit and (D) an isocyanate component containing diphenylmethane diisocyanate or its derivative. The amount of the component (C) in the component (A) is 0.5-20 mass%. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a toner supply roller, and more particularly to an image forming apparatus such as a copying apparatus, an image recording apparatus, a printer, and a facsimile, which is formed on a latent image carrier made of an electrophotographic photosensitive member or an electrostatic recording dielectric. A latent image carrier, such as a photoreceptor, which is built in a developing device used to develop and visualize an electrostatic latent image, and is supplied with a predetermined toner (developer) to form an electrostatic latent image. The present invention relates to a toner supply roller used for forming a target toner image on the surface.

  Conventionally, in an image forming apparatus such as a copying apparatus, an image recording apparatus, a printer, or a facsimile, an electrostatic latent image formed on an image carrier made of an electrophotographic photosensitive member or an electrostatic recording derivative is developed by a developing device. Visualization as a toner image is performed. In such a developing device, a toner supply roller having a surface layer made of a foamed elastic body such as polyurethane foam for supplying a predetermined toner (developer) accommodated in the hopper to the image carrier side is incorporated. It has been. At this time, it is possible to stabilize toner supply and scraping to the image carrier by opening a cell on the skin surface of the toner supply roller.

  Further, the toner supply roller is desired to have lower hardness (flexibility) from the viewpoint of toner supply performance and durability, and the polyurethane foam used as the foamed elastic body needs to have low hardness (soft). . Further, the toner supply roller needs to have sufficient recoverability against the compressive force caused by contact with the image carrier.

  A toner supply roller having a surface layer made of such polyurethane foam is manufactured, for example, by the following method. First, a polyol component, an isocyanate component, a foaming agent, a foam stabilizer, and a catalyst are mixed and stirred and injected into a toner supply roller mold. The toner supply roller can be manufactured by foaming this in a mold and then removing the molded product.

  As a method for obtaining a toner supply roller having a surface layer made of polyurethane foam having a low hardness and a low compression set even in a high temperature and high humidity environment, the total unsaturation is not more than 0.050 meq / g, and the mass average molecular weight Can be used as a polyol component (Patent Document 1). However, the use of the low-unsaturation and high-molecular weight polyether polyol described in Patent Document 1 improves the compression set of the toner supply roller, but the surface cell opening property when the specific gravity is lowered is not sufficient. It was.

  In addition, it is known that increasing the number of water used as a foaming agent is effective in reducing the density (reducing hardness) of polyurethane foam and stabilizing the cell opening on the skin surface (Non-patent Document 1). However, the aromatic polyurea by-produced by the reaction between the isocyanate component and water sometimes deteriorates the compression set of the polyurethane foam. In particular, compression set in a high temperature and high humidity environment such as a temperature of 40 ° C. and a humidity of 95% may be deteriorated.

  Furthermore, polyoxyethylene polyoxypropylene polyol having a hydroxyl equivalent of 800 to 5000, which is obtained by random addition polymerization of 60 to 95 mol% of ethylene oxide as a cell membrane breaker (foam breaker) (see Patent Document 2). . When the polyol is used in combination with a long-chain polyol and contained in the polyol component in an amount of 0.5 to 10% by mass, the open cell ratio of the polyurethane cold-cure molded product is increased, and the crushing operation during molding is facilitated. Or, a crushing operation can be omitted. At the same time, rebound resilience and compression set are improved. However, the polyol of the foam breaker is used for manufacturing large polyurethane foams such as cushioning materials for furniture, bedding, vehicles, etc., particularly automobiles, and is a small polyurethane type such as the toner supply roller of the present invention. It has generally been difficult to use for internal molding. In-mold molding of a small polyurethane foam generally has a very low heat generation by itself, and is therefore less reactive than molding a large urethane foam. Therefore, if a material such as a foam breaker that inhibits the reaction is added, molding failure tends to occur.

  Patent Document 2 uses a polyoxyethylene polyoxypropylene polyol having a number of functional groups of 2 or more, a molecular weight of 3500 to 10,000, and a terminal oxyethylene added in an amount of 5 to 30 mol% as a long-chain polyol. No investigation has been made to obtain products with good moldability and compression set. For this reason, it may be difficult to obtain a product having physical properties with sufficient compression set and low hardness as a toner supply roller.

  Further, as a toner supply roller that effectively improves the aperture ratio, the aperture diameter, and the cell communication state, and has a low hardness and good flexibility, a high PO polyol containing 70% or more of a polypropylene oxide component as a polyol component And a high EO polyol containing at least 50% of a polyethylene oxide component is provided (see Patent Document 3). However, a high PO polyol (particularly more than 90%) containing 70% or more of the polypropylene oxide component described in Patent Document 3 has a low content of the polyethylene oxide component usually contained as another component. As described, it is known that the reactivity of the —OH group is poor and the reaction (urethanization) between the polyol component and the isocyanate component is extremely reduced, so that it is not suitable for in-mold molding. Furthermore, the combined use of a high PO polyol containing 70% or more of the polypropylene oxide component described in Patent Document 4 and a high EO polyol containing 50% or more of the polyethylene oxide results in an opening ratio, an opening diameter and a cell communication state. Although it is possible to improve, the molecular weight of the polyol component, the EO addition state, and the type of polyisocyanate have not been studied at all, and good moldability, low hardness, good flexibility, and good compression set are obtained. No consideration has been made.

  Further, as the isocyanate component, polyisocyanate mainly composed of toluene disocyanate is used from the viewpoint that it is easy to produce a soft polyurethane foam having a lower hardness (see Non-Patent Document 2). However, a flexible polyurethane foam produced using a polyisocyanate mainly composed of toluene disociocyanate has a problem that compression set under a high temperature and high humidity environment is poor. As a method for improving the compression set of the flexible polyurethane foam in a high temperature and high humidity environment, there is a method of increasing the amount of the crosslinking agent used for blending. In such a method, the hardness of the flexible polyurethane foam is also increased. There was a problem of becoming higher.

On the other hand, polyurethane foam using polymethylene polyphenyl polyisocyanate (polymeric MDI) and / or diphenylmethane diisocyanate (monomeric MDI) as the isocyanate component is excellent in compression set in a high temperature and high humidity environment, but is sufficiently low. There was a problem that it was difficult to obtain a flexible urethane foam having hardness.
JP 2004-037630 A (page 1-13) JP-A-08-245746 (page 1-3) JP 2002-304052 A (page 1-3) Keiji Iwata, "Polyurethane Resin Handbook", Nikkan Kogyo Publishing, September 25, 1987 (first edition), pages 156-159 Yoshio Imai, “Polyurethane Foam”, published by Kobunshi Publishing, May 20, 1987 (first edition), p. 65

  The present invention has been made in the background of such circumstances, and the problem to be solved is that, in a toner supply roller having at least a surface layer formed of a foamed elastic body, the cell opening property is high and sufficient. Another object of the present invention is to provide a toner supply roller having a low hardness and excellent compression set even in a high temperature and high humidity environment.

  As a result of intensive studies to achieve the above object, the present inventors have formed a surface layer from a polyurethane foam obtained by using a polyol component containing a specific two components and a specific isocyanate component. Thus, it has been found that a toner supply roller excellent in stability of cell opening on the skin surface, low hardness, good flexibility, and compression set in a high temperature and high humidity environment can be provided.

That is, the present invention provides the following (1) to (8).
(1) A toner supply roller having a cored bar and a roller-shaped surface layer made of a foamed elastic body formed on the outer periphery of the cored bar,
The foamed elastic body is obtained by mixing and foaming at least a polyol component (A) containing the following components (B) and (C) and an isocyanate component (D) containing diphenylmethane diisocyanate or a derivative thereof. A toner supply roller obtained, wherein the content of the component (C) in the component (A) is 0.5 to 20% by mass.
Component (B): a copolymer having an ethylene oxide unit at the terminal, the content of ethylene oxide unit being 5 to 30% by mass of the whole, the total degree of unsaturation being 0.050 meq / g or less, and the mass average molecular weight Of 4000 to 10,000.
Component (C): A polyether polyol having no ethylene oxide unit and having a mass average molecular weight of 250 to 10,000.
(2) The toner according to (1), wherein the polyether polyol contained as the component (B) has a hydroxyl value of 20 to 85 mgKOH / g and an average functional group number of 2.0 to 4.0. Supply roller.
(3) The toner supply roller according to (1) or (2), wherein the polyether polyol contained as the component (B) has a total unsaturation of 0.035 meq / g or less.
(4) Any one of (1) to (3), wherein the total amount of diphenylmethane diisocyanate or a derivative thereof contained in 100 parts by mass of component (D) is 3 to 80 parts by mass. The toner supply roller according to 1.
(5) The toner supply roller according to any one of (1) to (4), wherein the component (D) further contains toluene dissocyanate or a derivative thereof.
(6) The toner supply roller according to any one of (1) to (5), wherein water is mixed as a foaming agent when mixing and foaming.
(7) The density of the foamed elastic body is 0.05 to 0.20 g / cm ³ , the hardness of the toner supply roller is 50 to 300 g, and the compression set in the high temperature and high humidity environment of the toner supply roller The toner supply roller according to any one of (1) to (6), wherein the rate is 15% or less.

  According to the present invention, it is possible to provide a toner supply roller having excellent cell opening stability on the skin surface, low hardness and good flexibility, and excellent compression set in a high temperature and high humidity environment, and the industrial utility value is high.

The present invention is a toner supply roller having a cored bar and a roller-shaped surface layer made of a foamed elastic body formed on the outer periphery of the cored bar,
The foamed elastic body is obtained by mixing and foaming at least a polyol component (A) containing the following components (B) and (C) and an isocyanate component (D) containing diphenylmethane diisocyanate or a derivative thereof. A toner supply roller obtained, wherein the content of the component (C) in the component (A) is 0.5 to 20% by mass.
Component (B): a copolymer having an ethylene oxide unit at the terminal, the content of ethylene oxide unit being 5 to 30% by mass of the whole, the total degree of unsaturation being 0.050 meq / g or less, and the mass average molecular weight Of 4000 to 10,000.
Component (C): A polyether polyol having no ethylene oxide unit and having a mass average molecular weight of 250 to 10,000.

  The present invention will be described below.

(Toner supply roller)
FIG. 1 is a perspective view showing an example of a toner supply roller of the present invention. As shown in FIG. 1, the toner supply roller 1 includes a cylindrical cored bar 2 and a surface layer made of polyurethane foam which is a foamed elastic body provided around the cored bar 2 except for both ends of the cored bar 2. 3 is provided.

  The core metal 2 can be a conventional core metal for a toner supply roller, and can be made of a metal such as iron. The outer diameter of the cored bar is preferably 2 to 10 mm.

  The surface layer 3 made of polyurethane foam has a plurality of cell openings communicating with the inside thereof on the surface. The thickness of the surface layer is preferably 1 to 20 mm, and more preferably 2 to 10 mm. When the thickness is within these ranges, the toner supply roller has better toner transportability.

  The toner supply roller of the present invention may have an adhesive layer, an elastic layer, etc., which will be described later, between the core metal and the surface layer as necessary.

(Polyurethane foam)
In the present invention, the density of the polyurethane foam used in the toner supply roller is preferably 0.05~0.20g / cm ^3, more preferably 0.07~0.15g / cm ^3. The toner supply roller preferably has a hardness of 50 to 300 g. If the hardness is less than 50, it becomes difficult to scrape off the toner, and if the hardness exceeds 300, toner deterioration will be accelerated and both may cause image defects. The hardness is more preferably 100 to 250 g. When in this range, the toner supply property of the toner supply roller is good. Further, the compression set of the toner supply roller is preferably 15% or less. In addition, each physical property measurement follows the method as described in an Example.

  Hereinafter, materials used as raw materials for polyurethane foam in the present invention will be described.

  The polyurethane foam to be the surface layer of the toner supply roller of the present invention comprises a polyol component [component (A)], an isocyanate component [component (D)], and optionally used catalysts, foaming agents, foam stabilizers, and other auxiliaries. Is obtained by mixing and foaming.

<Component (A): Polyol component>
In this invention, the polyol component containing the component (B) mentioned later and a component (C) is used as a component (A). You may further contain the well-known compound which can be used as a polyol component for forming a polyurethane foam. It is preferable that 85-100 mass% is contained in a component (A) in the sum total of a component (B) and a component (C).

<Component (B): Polyether polyol>
In the present invention, the component (B) is a copolymer having an ethylene oxide unit at the end, the content of the ethylene oxide unit is 5 to 30% by mass of the whole, and the total unsaturation is 0.05 meq / g or less. A polyether polyol having a mass average molecular weight of 4000 to 10,000 is used. The polyether polyol as the component (B) may be one kind or a combination of two or more kinds.

  The polyether polyol used as the component (B) is a copolymer having an ethylene oxide unit at the terminal, and the content of the ethylene oxide unit is 5 to 30% by mass. The content of a preferable ethylene oxide unit is 5 to 20% by mass. By having an ethylene oxide unit at the terminal, the reactivity for forming the urethane foam can be secured, and in-mold molding becomes possible. When the content of the ethylene oxide unit is less than 5% by mass, the resinification reaction is lowered, so that it is not suitable for the mold molding of the present invention. Moreover, when content of an ethylene oxide unit exceeds 30 mass%, resinification reaction will improve and the cell opening property of the surface will fall. Further, by using the polyether polyol having the ethylene oxide unit content as described above as the component (B), a toner supply roller having more excellent cell opening stability can be obtained.

  As said polyether polyol, what carried out addition polymerization of propylene oxide and ethylene oxide to initiators, such as glycerol, a trimethylol propane, ethylene glycol, propylene glycol, pentaerythritol, sorbitol, can be used. The amount of ethylene oxide to be added can be appropriately set in consideration of the ethylene oxide content in the polyether polyol prepolymer, the ethylene oxide content and the mass average molecular weight of the desired copolymer.

  Here, the total unsaturation degree of the polyether polyol used as the component (B) needs to be 0.050 meq / g or less. Preferably, it is 0.035 meq / g or less. When it is larger than 0.050 meq / g, the compression set rate tends to deteriorate. The total degree of unsaturation is measured by the method described in JIS K-1557.

  In general, a polyether polyol contains a monool component of several percent to several tens of percent. The content of the monool component indicates that the content of the monool component is lower as the total unsaturation value is smaller. Polyether polyols with low total unsaturation tend to have a uniform network structure when reacted with polyisocyanates to form polyurethane foam, which is considered to improve compression set under high temperature and high humidity conditions. . Moreover, when such a polyether polyol with a small monool component is used, the addition ratio of isocyanate (isocyanate index = number of NCO groups / number of active hydrogen groups × 100) can be reduced. The reason for this is that in polyether polyols with a small monool component, there is little reaction between the monool component and the isocyanate that becomes non-uniform in the network structure, so that the isocyanate index can be reduced. By reducing the isocyanate index, the hardness can be further reduced. However, if the isocyanate index is less than 60, resinification becomes insufficient, and the moldability of the toner supply roller becomes extremely bad. Conversely, if the isocyanate index is greater than 120, there is a problem that the hardness is increased.

  Furthermore, the mass average molecular weight of the polyether polyol used as the component (B) needs to be 4000 to 10,000. When the mass average molecular weight is larger than 10,000, the viscosity becomes high, and handling, casting, and uniform mixing with isocyanate become difficult. When the mass average molecular weight is less than 4000, the hardness increases. More preferably, it is 4000-8000.

  The polyether polyol used as component (B) preferably has a hydroxyl value of 20 to 85 mgKOH / g and an average functional group number of 2.0 to 4.0. When the hydroxyl value is less than 16 mgKOH / g, or when the average functional group number is less than 2.0, the toner supply roller tends to have poor compression set under a high temperature and high humidity environment, and the hydroxyl value is less than 84 mgKOH / g. If it is larger or larger than the average functional group number of 4.0, the hardness of the toner supply roller tends to increase. The hydroxyl value is more preferably 15 to 50 mgKOH / g. The hydroxyl value is measured by the method described in JIS K-1557.

<Component (C): Polyether polyol>
In the present invention, a polyether polyol having a mass average molecular weight of 250 to 10,000 and having no ethylene oxide unit is used as the component (C). The polyether polyol is obtained by, for example, synthesizing propylene oxide from propylene and then subjecting the propylene oxide to addition polymerization. Since the polyether polyol having no ethylene oxide unit has poor reactivity, a toner supply roller having excellent cell opening stability can be obtained. The polyether polyol as the component (C) may be one kind or a combination of two or more kinds.

  Here, the mass average molecular weight of the polyether polyol used as the component (C) needs to be 250 to 10,000. When the mass average molecular weight exceeds 10,000, the viscosity becomes high and workability is inferior. On the other hand, if it is less than 250, the hardness is increased. The mass average molecular weight is more preferably 1000 to 7000. That is, when the mass average molecular weight is within this range, the hardness suitable for use as a toner supply roller can be obtained.

  The component (C) needs to be contained in the component (A) in an amount of 0.5 to 20% by mass. When the content of the component (C) in the component (A) is less than 0.5% by mass, a good cell opening effect cannot be obtained. Moreover, when it exceeds 20 mass%, urethane formation will be inhibited and a moldability will deteriorate. The content of component (C) in component (A) is more preferably 1.0 to 15% by mass. By being within the above range, a toner supply roller having more excellent cell opening stability can be obtained.

  By mixing a predetermined amount of the component (C), not only the cells inside the toner supply roller can be made into continuous bubbles but also the cells on the skin surface can be opened. In other words, in order to open cells on the skin surface, it is not necessary to increase the foaming pressure in the mold by increasing the content of water as a foaming agent, so it is possible to reduce the by-produced aromatic polyurea Become. Furthermore, the composition as a raw material can be easily mixed, and a small in-mold molding like the toner supply roller of the present invention becomes possible.

<Component (D): Isocyanate component>
In the present invention, an isocyanate component containing diphenylmethane diisocyanate (MDI) or a derivative thereof is used as component (D). By using such a component (D) as an isocyanate component, a toner supply roller having a low hardness and good compression set in a high temperature and high humidity environment can be obtained.

  As a derivative of diphenylmethane diisocyanate, for example, modified MDI, polymeric MDI, or the like can be used. One kind of diphenylmethane diisocyanate or a derivative thereof may be used, or two or more kinds thereof may be used in combination. You may use the thing prepolymerized with the polyol.

  Moreover, you may contain the well-known compound which can be used as an isocyanate component for forming a polyurethane foam. For example, aliphatic polyisocyanates such as toluene diisocyanate, polymethylene polyphenyl polyisocyanate, hexamethylene diisocyanate and derivatives thereof, alicyclic polyisocyanates such as isophorone diisocyanate, and derivatives thereof may be contained. You may use the thing prepolymerized with the polyol. These may be used alone or in combination of two or more. It preferably contains toluene disociocyanate or a derivative thereof.

  The total amount of diphenylmethane diisocyanate or a derivative thereof contained in 100 parts by mass of component (D) is preferably 3 to 80 parts by mass. If the total amount is less than 3 parts by mass, the moldability may be reduced, and if it exceeds 80 parts by mass, the hardness is increased, so that it may not be suitable for the toner supply roller of the present invention.

<catalyst>
In the present invention, a catalyst can be used as necessary. There is no restriction | limiting in particular in the kind of catalyst, You may use a conventionally well-known thing. For example, amine-based catalysts (triethylenediamine, bis (dimethylaminoethyl) ether, N, N, N ′, N′-tetramethylhexanediamine, 1,8-diazabicyclo (5,4,0) undecene-7, 1, 5-diazabicyclo (4,3,0) nonene-5, 1,2-dimethylimidazole, N-ethylmorpholine, N-methylmorpholine, etc.), organometallic catalysts (tin octylate, tin oleate, dibutyltin dilaurate, Dibutyltin diacetate, tetra-i-propoxytitanium, tetra-n-butoxytitanium, tetrakis (2-ethylhexyloxy) titanium, etc.), acid salt catalysts with reduced initial activity of the amine-based catalyst and organometallic catalyst ( Carboxylate, formate, octylate, borate, etc.). One kind of this catalyst may be used, or two or more kinds may be used in combination.

<Foaming agent>
In the present invention, a foaming agent can be used as necessary. In particular, water is suitably used as a blowing agent because it reacts with polyisocyanate to generate carbon dioxide. Moreover, even if chlorofluorocarbons (HFC-134A, etc.), hydrocarbons (cyclopentane, etc.), other foaming agents developed for the purpose of protecting the global environment are used, or in combination with water, the present invention. It does not detract from the purpose of

<Foam stabilizer>
In the present invention, a foam stabilizer can be used as necessary. Examples of the foam stabilizer include water-soluble polyether siloxane from polydimethylsiloxane and ethylene oxide / propylene oxide copolymer, sodium salt of sulfonated ricinoleic acid, and a mixture of these with a polysiloxane / polyoxyalkylene copolymer. . Among these foam stabilizers, water-soluble polyether siloxane from polydimethylsiloxane and an ethylene oxide / propylene oxide copolymer is preferable.

<Other auxiliaries>
In the present invention, as the auxiliary agent, an appropriate amount of a crosslinking agent, a flame retardant, a colorant, an ultraviolet absorber, an anti-aging agent, an antioxidant, a conductivity imparting agent and the like can be used as necessary. Addition of these other auxiliaries as necessary does not impair the gist of the present invention.

(Method for forming surface layer)
In the present invention, the method for producing the polyurethane foam is not particularly limited and may be a conventional method. An example is as follows. First, the polyol component which is the component (A), the polyisocyanate component which is the component (D), and a catalyst, a foaming agent, a foam stabilizer and other auxiliaries that are used as desired are homogeneously mixed and then foamed and cured. By doing so, a polyurethane foam is obtained.

  There are no particular limitations on the temperature and time for mixing the raw materials, but the mixing temperature is usually in the range of 10 to 70 ° C, preferably 20 to 50 ° C, and the mixing time is usually 1 second to 10 minutes, preferably Is about 3 seconds to 5 minutes.

  Further, when foaming and curing, a polyurethane foam can be produced by foaming by a conventionally known method. There is no restriction | limiting in particular about the foaming method here, Any methods, such as the method of using a foaming agent and the method of mixing bubbles by mechanical stirring, can be used. The expansion ratio may be determined as appropriate and is not particularly limited.

  There is no particular limitation on the method for joining the core metal and the polyurethane foam as the surface layer. The core metal is disposed in the mold in advance and the raw material mixture as described above is cast and cured. For example, a method of adhering to a core after being formed into a predetermined shape to be a surface layer can be used. In either method, an adhesive layer can be provided between the cored bar and the polyurethane foam as necessary, and a known material such as an adhesive or a hot melt sheet can be used as the adhesive layer. The method for forming the surface layer portion made of polyurethane foam is not particularly limited. In addition to a known method, for example, a method of casting into a mold having a predetermined shape as described above, the polyurethane foam in a block state is cut by machining. A method of cutting to a predetermined size, a method of making a predetermined size by polishing treatment, a method of combining these methods as appropriate, or the like can be used.

  In particular, a method in which the core bar is disposed in the mold (molding mold) in advance and the raw material mixture as described above is cast-cured is preferable. More specifically, first, a rod-shaped metal core is placed in a predetermined mold for toner supply roller. As the mold, a pipe-shaped mold or a split mold can be used, but a pipe-shaped mold is more preferable. Then, a toner supply roller can be obtained by injecting the raw material mixture into the mold, causing a foaming reaction, and taking out the obtained molded product from the mold.

  According to the present invention as described above, it is possible to manufacture a toner supply roller that has excellent cell opening stability on the skin surface, low hardness, good flexibility, and excellent compression set in a high temperature and high humidity environment. It becomes.

  Hereinafter, examples and comparative examples of the present invention will be shown to clarify the present invention more specifically. However, the present invention is not limited by the description of such examples. Needless to say. In addition to the following examples, the present invention includes various changes and modifications based on the knowledge of those skilled in the art without departing from the spirit of the present invention, in addition to the specific description described above. It should be understood that improvements can be made.

  Table 1 shows analytical values of the polyol polyols a to e used as the polyether polyol (B). The polyol polyols a to e all have an ethylene oxide unit at the terminal.

Polyether polyol and polyisocyanate are used in the compositions shown in Tables 2 and 3, and 1 part by mass of SRX274C (trade name) as a foam stabilizer, 0.1 part by weight of TOYOCAT-ET (trade name) as a catalyst, TOYOCAT -L33 (trade name) 0.5 parts by mass, 2.0 parts by mass of water as a foaming agent were blended so that the NCO index was 90, mixed and stirred at 25 ° C., and this mixture was 5 mm in diameter and length. Foaming is performed by injecting into a pipe mold having an inner diameter of 16 mm into which a 290 mm metal shaft (core metal) is inserted so that the foam density is 0.10 g / cm ³ and heating in a 60 ° C. oven for 30 minutes. Cured. Thereafter, the mold was removed to obtain a toner supply roller. The obtained toner supply roller was evaluated for hardness, compression set, and cell opening. The results are shown in Table 2 and Table 3, respectively.

3) A polyether polyol manufactured by Sanyo Chemical Industries. Mass average molecular weight 3000, no ethylene oxide unit (OH value = 56 mgKOH / g)
4) Polyether polyol manufactured by Mitsui Takeda Chemical Co., Ltd. Mass average molecular weight 300, no ethylene oxide unit (OH value = 550 mgKOH / g)
5) Polyether polyol manufactured by Mitsui Takeda Chemical Co., Ltd. Mass average molecular weight 5000, no ethylene oxide unit (OH value = 34 mgKOH / g)
6) Polyether polyol manufactured by Mitsui Takeda Chemical Co., Ltd. Mass average molecular weight 10,000, no ethylene oxide unit (OH value = 19 mgKOH / g)
7) Polyisocyanate blend (MDI / TDI = 50/50 (mass ratio)) manufactured by Mitsui Takeda Chemical Co., Ltd. NCO% = 40.
8) As shown in FIGS. 2 (a) and 2 (b), the toner supply roller 1 is supported by the cored bar 2 at both ends, and the surface layer 3 made of polyurethane foam has a length of 50 mm (the length of the roller). Direction) x width 10 mm (thickness: 10 mm) with a jig 4 having a plate-like pressing surface, expressed as a load (g) at 1 mm displacement (compression) when pressed at a speed of 10 mm / min. Is. The larger the value is, the harder the surface layer 3 made of polyurethane foam is. Further, as shown in the figure, measurement points were measured at three locations in the axial direction, four locations every 90 degrees in the circumferential direction in each axial direction, for a total of 12 locations.
9) As shown in FIGS. 3A and 3B, the toner supply roller 1 is supported by the cored bar 2 at both ends, and a sleeve 5 having a diameter of 16 mm is brought into contact with the surface layer 3 made of polyurethane foam. The degree of restoration after 30 minutes after taking out and releasing was shown for 72 hours at a temperature of 40 ° C. and a humidity of 95% in a compressed state of 1.5 mm, and was calculated according to the following formula.

Compression set Cs (%) = (t ₀ −t ₁ ) /1.5×100
t ₀ : Radius before the test of the place compressed 1.5 mm t ₁ : Radius of the place compressed 1.5 mm after 30 minutes of compression release Note that the measurement point is an average of three points measured in the axial direction of the compressed part The value was determined. The compression set is preferably 15% or less. ○: Compression set is 15% or less, X: Compression set is more than 15%.
10) An enlarged image of the roller surface was measured by image analysis. ○: Cell opening ratio is 50% or more, ×: Cell opening ratio is less than 50%.
11) Comprehensive evaluation from the results of compression set and cell openability on the roller surface. ○: Excellent compression set and excellent cell opening, ×: Some of them have defects.

  As can be seen from Tables 2 and 3, the toner supply rollers (Examples 1 to 7) having the configuration of the present invention are excellent in cell opening property of the foam surface and compression set in a high temperature and high humidity environment. On the other hand, in the toner supply rollers (Comparative Examples 1 to 7) that deviate from the configuration of the present invention, the cell opening property or compression set under high temperature and high humidity is poor.

FIG. 3 is a perspective view illustrating a schematic configuration of a toner supply roller of the present invention. 4A and 4B are explanatory views showing a method for measuring the hardness of a surface layer made of polyurethane foam of a toner supply roller, wherein FIG. 5A is a diagram viewed from a direction perpendicular to the axial direction of the toner supply roller, and FIG. It is the figure seen from the direction parallel to an axial direction. 4A and 4B are explanatory views showing a method for measuring a compression set rate of a surface layer made of polyurethane foam of a toner supply roller, wherein FIG. 5A is a view seen from a direction perpendicular to the axial direction of the toner supply roller, and FIG. It is the figure seen from the direction parallel to the axial direction of a supply roller.

Explanation of symbols

1 Toner supply roller 2 Core 3 Surface layer 4 Jig 5 Sleeve

Claims (7)

A toner supply roller having a cored bar and a roller-shaped surface layer formed of a foamed elastic body formed on the outer periphery of the cored bar,
The foamed elastic body is obtained by mixing and foaming at least a polyol component (A) containing the following components (B) and (C) and an isocyanate component (D) containing diphenylmethane diisocyanate or a derivative thereof. A toner supply roller obtained, wherein the content of the component (C) in the component (A) is 0.5 to 20% by mass.
Component (B): a copolymer having an ethylene oxide unit at the terminal, the content of ethylene oxide unit being 5 to 30% by mass of the whole, the total degree of unsaturation being 0.050 meq / g or less, and the mass average molecular weight Of 4000 to 10,000.
Component (C): A polyether polyol having no ethylene oxide unit and having a mass average molecular weight of 250 to 10,000.   2. The toner supply roller according to claim 1, wherein the polyether polyol contained as the component (B) has a hydroxyl value of 20 to 85 mgKOH / g and an average functional group number of 2.0 to 4.0.   The toner supply roller according to claim 1, wherein the polyether polyol contained as the component (B) has a total unsaturation of 0.035 meq / g or less.   The toner supply according to any one of claims 1 to 3, wherein the total amount of diphenylmethane diisocyanate or a derivative thereof contained in 100 parts by mass of the component (D) is 3 to 80 parts by mass. roller.   The toner supply roller according to claim 1, wherein the component (D) further contains toluene disocyanate or a derivative thereof.   The toner supply roller according to claim 1, wherein water is mixed as a foaming agent when the mixed foaming is performed. The density of the foamed elastic body is 0.05 to 0.20 g / cm ³ , the hardness of the toner supply roller is 50 to 300 g, and the compression set in the high temperature and high humidity environment of the toner supply roller is 15 The toner supply roller according to claim 1, wherein the toner supply roller is at least%.

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