公开(公告)号：USD378444S

公开(公告)日：1997-03-11

申请号：US16391

申请日：1993-12-14

Applicant: Charles W. Atkinson

Designer： Charles W. Atkinson

公开(公告)号：US4736548A

公开(公告)日：1988-04-12

申请号：US46036

申请日：1987-04-30

Applicant: Charles W. Atkinson ,  Carl T. Moody

Inventor： Charles W. Atkinson ,  Carl T. Moody

IPC: B24D3/18 ,  B24D18/00 ,  B24D3/00

CPC classification number: B24D18/0009 ,  B24D3/18

Abstract: A process for artificially producing a relatively high density, tinted novaculite Washita stone of relatively homogenous characteristics, and the artificial stone product thereby produced. Tinted and untinted layers of abrasive mix are combined in a lateral pressing step to provide a composite colored stone suitable for subsequent vitrification. The untinted mixture preferably is preferably made from 100 mesh novaculite powder, but alternatively a blend of approximately 100 mesh and 200 mesh novaculite powder is employed. The is mixed with a wetting agent and water, a temporary binder, a flux, and a high refractory frit, yielding the following approximate constituency by weight: approximately 64% of said 100 and 200 mesh novaculite; 5-6% of a temporary binder, approximately 3% of the wetting agent, approximately 2% flux, and approximately 23-25% frit. After screening, the first mixture is completed by blending with ball clay. The tinted mixture is formulated from a supply of the untinted mix and a color glaze which is blended in. Layers of tinted mix are alternated with layers of untinted mix, and the final mixture may be edgewise pressed in the shape of the desired end product at pressures not exceeding three to five tons per square inch. Vitrification is thereafter achieved by firing the pressed parts in an electric furnace up gentle ramps to slowly approach cone 04, and a soak time of approximately 2 hours is preferred.

Abstract translation: 一种人造生产相对均匀特性的相对高密度，有色的novaculite Washita石的方法，由此生产人造石制品。 研磨混合物的着色和未着色层在侧向压制步骤中组合以提供适于随后玻璃化的复合着色石料。 未脱胶的混合物优选地由100目的novaculite粉末制成，但是也可以使用约100目和200目的novaculite粉末的共混物。 将其与润湿剂和水，临时粘合剂，助熔剂和高耐火玻璃料混合，产生以下大约重量份数：约100％和200目的无孔隙石的约64％; 约5-6％的临时粘合剂，约3％的润湿剂，约2％的助熔剂和约23-25％的玻璃料。 筛选后，通过与球粘土混合完成第一混合物。 着色混合物由未混合的混合物和混合的彩色釉料制成。着色混合物层与未混合的混合物层交替，并且最终混合物可以以所需最终产物的形式沿边压制 压力不超过3至5吨/平方英寸。 此后，通过在电炉中将压制零件点燃缓和斜坡来缓慢接近锥体04，实现玻璃化，优选约2小时的浸泡时间。

公开(公告)号：USD394128S

公开(公告)日：1998-05-05

申请号：US056074

申请日：1996-06-21

Applicant: Charles W. Atkinson

Designer： Charles W. Atkinson

公开(公告)号：USD388904S

公开(公告)日：1998-01-06

申请号：US62427

申请日：1996-11-04

Applicant: Charles W. Atkinson

Designer： Charles W. Atkinson

公开(公告)号：US5595579A

公开(公告)日：1997-01-21

申请号：US567093

申请日：1995-12-04

Applicant: Charles W. Atkinson

Inventor： Charles W. Atkinson

IPC: A61H7/00 ,  B24D11/00

CPC classification number: A61H7/003 ,  A61H2201/105

Abstract: A liquid soap absorbent, liquid soap dispensing synthetic ceramic stone of specified porosity with interconnecting voids throughout the body of the stone. The surface of the stone is mildly abrasive in a soap and water milieu. The interconnecting voids are substantially uniform enabling a liquid soap to thoroughly penetrate the stone by capillary action. In use, the liquid soap is continuously dispensed by dissolution in water and the aspirating action caused by a concave bottom surface of the stone and the seal provided by soap, water and skin at the point of use. As the liquid soap is drawn from the stone the interconnecting voids are cleared of the soap. With the depletion of the liquid soap from the stone a fresh charge of liquid soap is accomplished by merely placing the depleted stone in a shallow receptacle filled with liquid soap.

Abstract translation: 一种液体皂吸收剂，液体皂分配具有特定孔隙率的合成陶瓷石，具有贯穿整个机体的互连空隙。 石头的表面在肥皂和水环境中轻微磨损。 相互连接的空隙是基本均匀的，使得液体肥皂能够通过毛细管作用彻底地穿透石头。 在使用中，液体皂通过溶解在水中而持续分配，并且由使用时由石头的凹面和由肥皂，水和皮肤提供的密封引起的抽吸作用。 当液体皂从石头中抽出时，互连的空隙就被肥皂清除。 随着液体肥皂从石头中的消耗，新鲜的液体肥皂是通过将耗尽的石头放置在充满液体肥皂的浅容器中来实现的。