TH14052B - "How to make soft tissue products" - Google Patents

Abstract

Hot air-drying tissue products, such as facial tissue, toilet tissue, and paper towels, are made using a hot air drying cloth that is embossed. In machine lines ranging from approximately 5 to approximately 300 per square inch (per 6.45 square centimeter), which are raised above the plane of the fabric. These reliefs correspond to the bulge In addition, other properties such as total volume, adsorption capacity, and other properties such as total volume, adsorption capacity Adsorption rate And the bendo bend has been improved as well

Claims (4)

1. Non-wrinkling hot air drying tissue That is considered Uniform density, standard weight from approx. 10 to approx. 70 g / sq m, total volume when compressed in wet condition (WCB) approx 4. 5 grams or more Absorption capacity of approximately 9 grams per gram or more, approximately 9 percent or more of transverse elongation, and relief from approximately 5 to approximately 300 square inches. Which is the height relative to the surface plane Of the sheet, when measured in the un-ironed state with a roller, is approximately 0. 0005 inches or more and which match Rubberized embossments in the machine line on fabrics that have been dried through hot air. 2. Non-wrinkling hot air-drying tissue that is rated as Uniform density, standard weight from approx. 10 to approx. 70 g / sq m, total volume when compressed in wet condition (WCB) approx 4. 5 g or more, the absorption rate, move about 2. 5 cm Or more per 15 seconds, stretching in the transverse direction of about 9 percent or more And the relief from about 5 to approximately 300 per square inch, which is in relation to the surface plane. Of the sheet, when measured in the un-ironed state with a roller, is approximately 0. 0005 inches or more And which corresponds to Rubberized embossments in the machine line on fabrics that have been dried by passing hot air 3. Non-wrinkling hot air-drying tissue that is rated as Uniform density, standard weights ranging from approximately 10 to approximately 70 grams per square meter, spring return in wet state (WS) is approximately 50 percent or more. The point of adsorption was approximately 9 g / g or greater, elongation in the transverse direction of approximately 9% or more, and the relief from approximately 5 to 300 per square inch of height relative to the sheet's surface plane. When measured in the condition that has not yet been rolled with a roller, it is approximately 0. 0005 inches or more And which corresponds to the relief that It is a form of rubber in the machine line on a cloth that is dried by passing hot air 4. Non-wrinkling hot air-drying tissue that is rated as Uniform density, standard weights ranging from approximately 10 to approximately 70 grams per square meter, spring return in wet state (WS) is approximately 50 percent or more. The absorption rate is about 2. 5 cm or more per 15 sec. Elongation in the transverse direction is approximately 9% or more, and the bulge is from approximately 5 to approximately 300 per square inch, in relation to the surface plane. Of the sheet, when measured in the un-ironed state with a roller, is approximately 0. 0005 inches or more And which corresponds to the footprint A rubberized relief on the fabric that is dried by passing hot air 5. Non-wrinkling hot air-drying tissue that is rated as Uniform density, with a standard weight of approximately 10 to approximately 70 grams per square meter, Load Energy Ratio (LER) of approximately 50 percent or more. Adsorption capacity approx. 9 Gram per gram or more Elongation in the transverse direction is approximately 9% or more, and the relief from approximately 5 to 300 per square inch, which is in height relative to the surface plane of the sheet. When measured in the condition that has not yet been rolled with a roller, it is approximately 0. 0005 inches or more And which corresponds to the relief that It is a form of rubber in the machine line on a cloth that is dried by passing hot air 6. Non-wrinkling hot air-drying tissue that is rated as Uniform dense It has a standard weight ranging from approximately 10 to approximately 70 grams per square meter. Load Energy Ratio (LER) is about 50 percent or more. Capacity of adsorption is approx. 2. 5 cm The elongation in the transverse direction is approximately 9 percent or more. And the relief from about 5 to 300 per square inch, which is in relation to the surface plane of the sheet. When measured in the condition that has not yet been rolled with a roller, it is approximately 0. 0005 inches or more And which corresponds to the relief that Form rubber in the machine line on cloth dried by passing hot air 7. Tissue under claim 1,2,3,4,5 or 6 with relief from approximately 10 to approximately 150 per square inch 8. Tissue under claim 1,2,3,4,5 or 6 with relief from approximately 10 to approximately 75 per square inch 9. Tissue sheet according to claim 1,2,3,4,5 or 6, where the height of the relief from approximately 0. 005 to about 0. 05 inches 1 0. Tissue sheets according to claim 1,2,3,4,5 or 6, the height of the relief from approximately 0. 005 to about 0. 03 inches 1 1. Tissue sheets according to claim 1,2,3,4,5 or 6, the height of the relief from approximately 0. 01 to about 0. 02 inches 1 2. Tissue sheet according to claim 1,2,3,4,5 or 6, where the length of the contour in the machine is approximately 0. 030 to about 0. 425 inches 1 3. Tissue sheet according to claim 1,2,3,4,5 or 6, in which the length of the contour in the machine is approximately 0. 05 to about 0. 25 inches 1 4. Tissue sheet according to claim 1,2,3,4,5 or 6, where the length of the contour in the machine is approximately 0. 1 to about 0. 2 inches 1 5. Tissues according to claim 1,2,3,4,5 or 6 stretched in the transverse direction of the machine from approximately 10 to approximately 25 percent 1 6. Tissue sheets according to claim 1,2,3,4,5 or 6 with a total volume of approximately 9 million baht. cm Per gram or more than 1 7. Tissue sheets according to claim 1,2,3,4,5 or 6 with a total volume of approximately 12 million baht. cm Per gram or more than 1 8. Tissue sheets according to claim 1,2,3,4,5 or 6 with a total volume of approximately 12 to approximately 25 million baht. cm Per gram or more than 1 9. Tissue sheets according to claim 1,2,3,4,5 or 6 with a total volume of approximately 15 to approx. 20 million baht. cm Per gram or more than 2 0. Tissue sheets according to claim 1,2,3,4,5 or 6 with the bend as measured by the rate The portion of the geometric mean of the geometric mean tensile modulus of the tensile strength is approximately 4. 25 Km. Per kg or less 2 1. Tissue sheets according to claim 1,2,3,4,5 or 6 with the bend as measured by the rate The portion of the geometric mean of the modulus of tension to the geometric mean of the tensile strength is approximately 2 to approx. 4. 25 Km. Per kg or less 2 2. Tissues according to claim 1,3, or 5 with an absorption rate moving approximately 25 inches per 15 seconds or more 2 3. Tissue sheets according to claim 1,2,3,4,5 or 6 with an absorption rate moving from approximately 2. 5 to about 4 inches per 15 seconds 2 4. Tissue sheets according to claim 1,2,3,4,5 or 6 with an absorption rate moving from approximately 3 to approx. 3. 5 inches per 15 seconds 2 5. Tissue sheets according to claim 1,2,3,4,5 or 6 with a capacity of approximately 12 grams per gram or more than 2 6. Tissue sheets according to claim 1,2,3,4,5 or 6 with MD hardness of approximately 100 kg - 1/2 micron or less 2 7. Tissue sheets according to claim 1,2,3,4,5 or 6 with MD hardness of approximately 75 kg - 1/2 micron or less 2 8. Tissue sheets according to claim 1,2,3,4,5 or 6 with MD hardness of approximately 50 kg - 1/2 micron or less 2 9. Tissue sheets according to claim 1,2,3,4,5 or 6 with a WCB value of 5. 0 or greater than 3 0. Tissue sheets according to claims 1,2,3,4,5 or 6 with a LER of approximately 55 percent or more 3 1. Tissue sheets according to claims 1,2,3,4,5 or 6 with a WS value of approximately 60 percent or more 3 2. A dense, uniform tissue product that is dried by pass One or more layers of hot air Standard weights range from approx. 10 to approx. 70 g / sq m. Total wet volume (WCB) approx. 5 or more, wet rebound (WS) approx. 60% or more. Absorption capacity of approximately 9 g / g or more, stretching in the transverse direction by approximately 9% or more. And the total volume is about 9 cubic meters. cm One or more layers with a relief from approximately 5 to approximately 300 per square inch in height relative to the sheet's surface plane when measured in the wrinkled and unprocessed state. Rolled with a roller is approximately 0. 0005 inches or more, and which corresponds to the rubber bump in the machine On clothes that have been dried through hot air 3 3. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on shaping cloth to make wet fiber sheets (b) removal of water from wet fibers until concentrations are from about 20 to about 30 percent. (c) Transfer of dehydrated filament sheets from the shaping cloth to the working transfer cloth. It moves at a slower speed than the fabric is formed, from about 10 to about 80 percent (d). Transferring the fiber sheet to the dried fabric through hot, welded air. The elongated relief in the machine line from approximately 5 to approximately 300 square inches. Which was raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction of the machine Cloth in which the fibers are rearranged That can be seen with the naked eye to match the image with the surface of the cloth that is dried by Through hot air and (e) drying the sheets through hot air to produce the fibers that Dry through hot air with a uniform density. Which has the total volume when compressed in wet condition (WCB) is approximately 4. 5 or more, adsorption capacity of approximately 9 g / g or more, and elongation in the transverse direction of approximately 9% or more 3 4. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force It moves at a slower speed than the fabric is formed, from about 10 to about 80 percent (d). Transferring the fiber sheet to the dried fabric through hot, welded air. An elongated relief in the machine from approximately 5 to approximately 300 seams square inch. Which was raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction of the machine Cloth in which the fibers are rearranged That can be seen with the naked eye to match the image with the surface of the cloth that is dried by Through hot air and (e) drying the sheets through hot air to produce the fibers that Dry through hot air with a uniform density. The total volume when compressed in wet condition (WS) is about 50 or more, the adsorption capacity is approximately 9 g / g or more, and the stretch in the transverse direction is about 9% or more. 3 5. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force It moves at a slower speed than the fabric is formed, from about 10 to about 80 percent (d). Transferring the fiber sheet to the dried fabric through hot, welded air. An elongated relief in the machine from approximately 5 to approximately 300 seams square inch. Which was raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction of the machine Cloth in which the fibers are rearranged That can be seen with the naked eye to match the image with the surface of the cloth that is dried by Through hot air and (e) drying the sheets through hot air to produce the fibers that Dry through hot air with a uniform density. Whose total volume when compressed in wet condition (LER) is approximately 50 percent or more The adsorption capacity is approximately 9 grams per gram or more. And elongation in the transverse direction of the machine approximately 9 percent or more 3 6. Method according to claim 33, 34 or 35, in which the number of the elongated relief In the machine line from about 10 to approximately 150 3 square inches of seam 7. Method according to claim 33, 34 or 35, in which the number of the elongated relief In the machine line from about 10 to about 75 stitches 3 8 square inches. Method according to claim 33, 34 or 35, in which the transfer cloth has an elongated relief. In the machine line from about 5 to approximately 300 square inches, which is raised at least about 0. 005 inches or more above the plane resulting from the highest of the burrs in the machine-horizontal direction of the transfer cloth 3 9. The method follows claim 38, where the number of elongated contours in the machine line is from approximately 10 to approximately 150 square inches per 4 0. The method follows claim 38 in which the number of elongated contours in the machine line is from approximately 10 to approximately 75 square inches 4 1. Method according to claim 33, 34 or 35, in which the fiber sheets are dried with Through hot air is rolled by 4 rollers 2. Method according to claim 33, 34 or 35, in which the fiber sheets are dried with Through hot air will be wrinkled 4 3. Method according to claim 33, 34 or 35, in which the fiber sheets are dried with Through hot air will not wrinkle 4 4. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrated about 1 percent or less on fabric to form wet sheets (b) removal of water from wet fiber sheets to a concentration of approximately 20 to 30 percent (c) Transfer of dehydrated fibers from Fabric to form to transfer fabric that is going Moving at a speed slower than the fabric made from about 10 to about 80 percent. There is an elongated bulge in the machine line from approximately 5 to approximately 300 per square inch which is raised. At least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction. Of a transfer cloth fabric in which the fibers are rearranged that are visible to the naked eye And (d) the transfer of the fiber sheet to the hot-air dried fabric and the fiber to produce a uniform density with volume. Total when compressed in wet condition (WBC) approx. 4. 5 or more, an adsorption capacity of approximately 9 g / g or more, and an elongation in the transverse direction of approximately 9% or more 4 5. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrated about 1 percent or less on fabric to form wet sheets (b) removal of water from wet fiber sheets to a concentration of approximately 20 to 30 percent (c) Transfer of dehydrated fibers from Fabric to form to transfer fabric that is going Moving at a speed slower than the fabric made from about 10 to about 80 percent. There is an elongated bulge in the machine line from approximately 5 to approximately 300 per square inch which is raised. At least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction. Of the transfer cloth in which the fibers are rearranged, visible to the naked eye, to form with the surface of the transfer cloth, and (d) the transfer of the fiber to the dried through hot air; and This makes the filament sheets to produce sheets of uniform density with a total volume when compressed in wet conditions (WS) of approximately 50 percent or more. Absorption capacity of approximately 9 g / g or more and elongation in the horizontal direction of approximately 9% or more 4 6. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrated about 1 percent or less on fabric to form wet sheets (b) removal of water from wet fiber sheets to a concentration of approximately 20 to 30 percent (c) Transfer of dehydrated fibers from Fabric to form to transfer fabric that is going Moving at a speed slower than the fabric made from about 10 to about 80 percent. There is an elongated bulge in the machine line from approximately 5 to approximately 300 per square inch which is raised. At least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction. Of the transfer fabric in which the fibers are rearranged visible to the naked eye to form with the surface of the transfer cloth, and (d) the transfer of the fiber to the dried through hot air. It is dried to produce sheets of uniform density with a load-energy ratio (LER) of approximately 50 percent or more. Absorption capacity of approximately 9 g / g or more and elongation in the transverse direction of approximately 9% or more 4 7. Method for claim 44, 45 or 46, in which the number of elongated reliefs In the machine line from approximately 10 to approximately 150 4 square inches of seam 8. Method for claim 44, 45 or 46, in which the number of elongated reliefs In line, the machine is from approximately 10 to approximately 75 4 square inches of seam 9. The method for making tissue products that is dried through hot, soft, wrinkle-free air consists of (a) the formation of the paper-making fiber suspension in a water-tight medium. Concentration of approximately 20% or more (b) mechanical action Obtain the suspension in aqueous medium at approximately 140 ° F. It was heated by an external heat source with an input power of approximately 1 hp per tonne of dry fibers or more (c) aqueous suspension of the fibers being processed. Mechanical and then diluted to a concentration of approximately 0. 5 percent or lower And feeding of suspensions Which is then diluted to the tissue dispenser, the layer is made Two or more substrates (d) incorporate a temporary or permanent wet strength additive into one or more such substrates (e) the accumulation of suspended solids in a diluted aqueous medium. Then onto the cloth to make a picture To make wet fiber sheets (f) water removal from wet filament sheets to a concentration of approximately 20 to approximately 30 percent (g) Transferring dehydrated filament sheets from the shaping cloth to a force transfer cloth. It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (h). Transferring the filament to the dried fabric by passing through hot, welded air. The elongated relief in the machine line from approximately 5 to approximately 300 square inches. Which was raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction of the machine Fabrics that have been dried through hot air Therefore, the fibers will be rearranged that is visible to the naked eye. To match the shape to the surface of the fabric dried by passing hot air (i) drying the fiber sheet by passing hot air to the final dry. With a density that is considered consistent And the total volume when compressed in wet condition (WCB) is approximately 4. 5 or more, the adsorption capacity is about 9 grams per gram or more. And stretching in the transverse direction About 9% or more of the machine and (j) iron-dried fiber sheets with rollers 5 0. The method for making tissue products that is dried through soft, smooth heating involves (a) the suspension of the paper fibers in a water-tight medium. Concentration of approximately 20% or more (b) mechanical operation received a suspension in an aqueous medium at approximately 140 ° F or more, heated by an external heat source with approximately 1 hp of input power per day. Tons of dry fibers or more (c) the aqueous media suspension of the fibers being processed. Mechanical, then diluted to a concentration of approximately 0. 5 percent or lower And feeding of suspensions (D) the combination of a temporary or permanent wet strength additive into one such layer, or More than (e) the accumulation of the suspension in the diluted aqueous medium on the shaping cloth. To make wet fiber sheets (f) water removal from wet fiber sheets to a concentration of approximately 20 to approximately 30 percent (g) Transferring the dehydrated filament sheets from the shaping fabric to the undergoing transfer fabric. It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (h). Transferring the filament to the dried fabric by passing through hot, welded air. The elongated relief in the machine line from approximately 5 to approximately 300 square inches. Which was raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction of the machine Fabrics that have been dried through hot air Therefore, the fibers will be rearranged that is visible to the naked eye. To match the shape with the surface of the cloth that is drying By passing hot air (i) drying the sheets by passing hot air to final drying. With a density that is considered consistent And the total volume when compressed in wet condition (WS) is approximately 50 percent or more. The adsorption capacity is approximately 9 grams per gram or more. And stretching in the direction Approximately 9 percent or more of the machine path, and (j) rolling of dried fibers with rollers 5 1. The method for making tissue products that is dried through soft, smooth heating involves (a) the suspension of the paper fibers in a water-tight medium. Concentration of approximately 20% or more (b) mechanical operation received a suspension in an aqueous medium at approximately 140 ° F or more, heated by an external heat source with approximately 1 hp of input power per day. Tons of dried fibers or more (c) the aqueous media suspension of the fibers being processed. Mechanical, then diluted to a concentration of approximately 0. 5 percent or lower And feeding of suspensions (D) the inclusion of a temporary or permanent wet strength additive into such a layer. One or more layers (e) the accumulation of the suspension in the diluted aqueous medium onto the shaping cloth. To wet fiber sheets (f) water removal from wet fiber sheets to a concentration of approximately 20 to approximately 30 percent (g). Transfer of dehydrated filament sheets from the shaping cloth to the power transfer fabric. It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (h). Transferring the filament to the dried fabric by passing through hot, welded air. The elongated relief in the machine line from approximately 5 to approximately 300 square inches. Which was raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction of the machine Fabrics that have been dried through hot air Therefore, the fibers are rearranged that is visible to the naked eye. To match the shape with the surface of the cloth that is drying Through hot air (i) drying the fibers by passing hot air to final drying. With a density that is considered consistent And the total volume when compressed in wet condition (LER) is about 50 percent or more. The adsorption capacity is approximately 9 grams per gram or more. And stretching in the direction Approximately 9 percent or more of the machine path, and (j) rolling of dried fibers with rollers 5 2. Method according to the claim that 33,34,35,44,45,46,49,50 or 51 in which the length of The bulge in the machine line is from approximately 0. 030 inches to about 0. 425 inches 5 3. Method according to the claim that 33,34,35,44,45,46,49,50 or 51 in which the length of The bulge in the machine line is from approximately 0. 05 inches to about 0. 25 inches 5 5. Method according to the claim that 33,34,35,44,45,46,49,50 or 51, which are embossed in the line The machine straddles the top from about 2 to about 15 cross thread 5 6. Method according to the claim that 33,34,35,44,45,46,49,50 or 51, which are embossed in the line The machine straddles the top from about 3 to about 11, cross thread 5 7. Method according to the claim that 33,34,35,44,45,46,49,50 or 51, which are embossed in the line The machine straddles the top from about 3 to about 7, cross thread 5 8. Method according to the claim that 33,34,35,44,45,46,49,50 or 51, which are embossed in the line The device appears in a overlapping manner when viewed in the transverse direction of the machine.5 9. Method according to the claim that 33,34,35,44,45,46,49,50 or 51, of which the embossing is made The length in the machine line as measured by the plane difference between the planes resulting from the highest point of The longitudinal and plane reliefs formed at the highest point of the transverse thread bulge are approximately 30 to approximately 150 percent of the diameter of the warp. That forms a rubber in the machine 6 0. Method according to the claim that 33,34,35,44,45,46,49,50 or 51 which height of An elongated bump in the machine line as measured by the plane difference between the planes formed by the point. The highest of the elongated relief in the machine. And the plane formed by the highest point of the convexity of The diagonal thread is approximately 70 to approximately 110 percent of the diameter of the warp that makes An elongated bulge occurs in the machine line 6 1. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force Moving at approximately 10 to 80 percent slower than fabricated fabrics (d), the transfer of fibers to dried fabrics is through hot air with a load layer and a three-dimensional plinth layer. The carvings floor has a series of reliefs from approximately 5 to approximately 300 square inches long, which are made. By the compressed yarn part that is woven into the fabric in the machine line of the fabric, the plane difference between the planes caused by the upper surface of the receiving layer. The forces and the plane that arise from the top of the longitudinal convexity in the line The plinth is at least 30 percent of the extruded thread diameter. And which sheet lines The webs were rearranged to look. And (e) drying the sheets by passing hot air in such a way that the fibers It has a uniform density and total volume when compressed in wet condition of approximately 4. 5 or more, the adsorption capacity is about 9 grams per gram or more. And elongation in the transverse direction of the machine approximately 9 percent or more 6 2. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force Moving at approximately 10 to 80 percent slower than fabricated fabrics (d), the transfer of fibers to dried fabrics is through hot air with a load layer and a three-dimensional plinth layer. The plinth floor has an embossed pattern lengthwise from approximately 5 to approximately 300 square inches, which is made by the pressed part of the thread that is woven into the fabric in the machine line of the fabric. Inter-plane plane formed by the upper surface of the receiving layer The forces and the plane that arise from the top of the longitudinal convexity in the line The plinth is at least 30 percent of the extruded thread diameter. And where the fibers were rearranged to look Visually to the naked eye to the shape with the surface of the fabric dried by passing hot air and (e) drying the fibers by passing hot air in such a way that the fibers Will have a density that is considered uniform Wet rebound (WS) is approximately 50% or more. Adsorption capacity is approximately 9 g / g or more. And stretching in the transverse direction The machine orientation is about 9 percent or more 6 3. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentration of approximately 1 percent or less on wet wedges (b) removal of water from wet fiber sheets to a concentration of approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers from fabric. Picture to the transfer cloth that is going Moving at approximately 10 to 80 percent slower than fabricated fabrics (d), the transfer of fibers to dried fabrics is through hot air with a load layer and a three-dimensional plinth layer. The carvings floor has a series of reliefs from approximately 5 to approximately 300 square inches long, which are made. By the compressed yarn part that is woven into the fabric in the machine line of the fabric, the plane difference between the planes caused by the upper surface of the receiving layer. The forces and the plane that arise from the top of the longitudinal convexity in the line The plinth is at least 30 percent of the extruded thread diameter. And where the fibers were rearranged to look See with the naked eye To form with the surface of the fabric being dried by passing hot air and (e) drying the sheet by passing hot air in such a way that the fiber It has a density that is rated as uniform, the load energy ratio is approximately 50 percent or more, the adsorption capacity is approximately 9 grams per gram or more. And elongation in the transverse direction of the machine approximately 9 percent or more 6 4. The method follows claim 61, 62 or 63 where the plane difference is from 30 to 150 percent of the extruded thread diameter 6.5. Method according to claim 61, 62 or 63, where the plane difference is from 70 to 100 percent of the extruded yarn diameter 6 6. Method according to claim 61, 62 or 63, where the plane difference is approximately 90 percent of the compressed yarn diameter 6 7. Method according to claim 61, 62 or 63, where the extruded fiber diameter is from 0. 005 inches to about 0. 05 inches 6 8. Method according to claim 61, 62 or 63, in which the number of elongated reliefs In line, the machine is from approximately 10 to approximately 150 square inches per 9. Method according to claim 61, 62 or 63, in which the number of elongated reliefs In line, the machine is from approximately 10 to approximately 75 square inches per 7 0. Method according to claim 61,62 or 63 in which the transfer cloth has a load layer and a three-dimensional plinth layer, the plinth has elongated reliefs in the machine line from approximately 5 to approximately 300 square joints. Fingers which were made With the part of the yarn that has been pressed woven into a fabric transferred in the line Machine of cloth Which the plane difference between the planes caused by the upper surface of the load layer And the resulting plane From the upper layer of the elongated relief in the machine line In the sculpture class is at least 30 percent of Extruded yarn diameter 7 1. Method according to claim 61, 62 or 63, in which the number of elongated reliefs In the machine line in the transfer fabric is from approximately 10 to approximately 150 seams sq. 7 inches. 2. Method according to claim 61, 62 or 63, where the number of elongated relief In line, the intrauterine transfer is from approximately 10 to approximately 75 seams 7 square inches 3. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force It moves at a slower speed than the fabric is formed, from about 10 to about 80 percent (d). Transferring the fiber sheet to the dried fabric through hot, welded air. The elongated relief in the machine line from approximately 5 to approximately 300 square inches. Which was raised at least about 0. 005 inches above the plane formed by the highest point of the ribbed in the horizontal direction. Of cloth which sheet lines The fibers are rearranged visible to the naked eye to form with the surface of the dry cloth. By passing hot air and (e) drying the fibers by passing hot air to produce the fibers that make Dry through hot air with a uniform density 7 4. The method follows claim 73, in which the number of elongated contours in the machine line is from approximately 10 to approximately 150 square inches, 7 5. Method according to claim 73, in which the number of elongated contours in the machine line is from approximately 10 to approximately 75 square inches per 7 6. The method, according to claim 73, in which the transfer fabric has an elongated contour in the machine line, is from approximately 5 to approximately 300 square inches raised at least approximately 0. 0005 inches or more above the plane formed by the highest point of the relief in the machine-horizontal direction of the transfer cloth 7 7. Method according to claim 73, in which the transferred fabric has an elongated relief in the machine line. In the fabric, the transfer is from approximately 10 to approximately 150 seams 7 inches square. 8. The method follows claim 76, in which the number of elongated contours in the machine line is from approximately 10 to approximately 75 square inches per 7 9. Method according to claim 73 or 76, in which the fiber sheets are dried through The hot air is rolled with a roller 8 0. Method according to claim 73 or 76, in which the fiber sheets are dried through Hot weather will be wrinkled 8 1. Method according to claim 73 or 76, in which the fiber sheets are dried through Hot weather will not wrinkle 8 2. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force Moving at a speed slower than the fabric made from about 10 to about 80 percent. There is an elongated bulge in the machine line from approximately 5 to approximately 300 per square inch which is raised. At least about 0. 005 inches above the plane formed by the highest point of the relief in the transverse direction. The machine of the transfer cloth in which the fibers are rearranged, visible to the naked eye, to form with the surface of the transfer cloth, and (d) the transfer of the fiber sheets to the air-dried fabric. Heated and dehydrated to produce strips of uniform density.8 3. Method according to claim 82, in which the transferred fabric has an elongated embossing on the machine line. In the fabric, the transfer is from approximately 10 to approximately 150 stitches, 8 square inches. 4. Method according to claim 10, in which the number of longitudinal contours in the machine In the transfer fabric is from approximately 10 to approximately 75 stitches, 8 square inches 5. The method for making tissue products that is dried through soft, smooth heating involves (a) the suspension of the paper fibers in a water-tight medium. Concentration of approximately 20% or more (b) Acts of solids in aqueous medium at approximately 140 ° F. At the same time, it is heated by an external heat source with an input power of approximately 1 hp-d per ton of dry fibers or more (c). The suspension in the aqueous medium of the fibers is mechanically performed. Then diluted with a concentration of about 0. 5 percent or lower And feeding of the diluted suspension And go to the tissue distribution box, the layered tissue that makes Two or more layers of material (d) incorporating temporary strength additives in wet conditions or (E) Deposition of the suspended solids in the diluted aqueous medium onto the fabric. To make the wetted sheet (f), the removal of water from the wet fiber mat has a concentration of approximately 20 to approximately 30 percent. (g) The transfer of dehydrated filament sheets from the shaping cloth to the working transfer cloth. Moving at a slower speed than the shaping fabric, from about 10 to about 80 percent (h), the transfer of the fiber sheet to the dried fabric is passed through hot, embossed air. The length of the machine line from about 5 to approximately 300 square inches, which is raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the machine transverse direction of the fabric being Drying through hot air Therefore, the fibers will be rearranged that is visible to the naked eye. Figure on the surface of the fabric dried by passing hot air (i) Drying the fibers by passing hot air to final dryness. With a uniform density and (j) rolling of the dried fibers with rollers 8 6. Method according to claim 73, 82 or 85, where the length of the relief in the machine line is approximately 0. 030 inches to about 0. 425 inches 8 7. Method according to claim 73, 82 or 85, where the length of the relief in the machine line is approximately 0. 05 inches to about 0. 25 inches 8 8. Method according to claim 73, 82 or 85, where the length of the relief in the machine line is approximately 0. 1 inch to about 0. 2 inches 8 9. Method according to claim 73, 82 or 85, in which the bulge in the machine line straddles the top from approximately 2 to approximately 15, the cross thread 9 0. Method according to claim 73, 82 or 85, in which the bulge in the machine line straddles the top from approximately 3 to approximately 11, the cross thread 9 1. Method according to claim 73, 82 or 85, in which the bulge in the machine line straddles the top from approximately 3 to approximately 7, the cross thread 9 2. Method according to claim 73, 82 or 85, in which the bulging in the machine line appears in Overlapping characteristics when viewed in transverse directions and machines 9 3. Method according to claim 73, 82 or 85, in which the height of the elongated relief in the machine line as measured by the plane difference between the planes formed by the highest point of the relief. The elongation in the machine line and the plane formed at the highest point of the diagonal thread count is from approximately 30 to approximately 150 percent of the diameter of the warp thread made. It is an elongated shape in the machine 9 4. Method according to claim 73,82 or 85, where the height of the elongated relief in the machine line, as measured by the plane difference between the planes caused by the highest point of the relief Shaped in a long line The machine and the knot resulting from the highest point of the transverse thread is approximately 70 to approximately 110 percent of the warp diameter that is made. Long figure in the machine 9 5. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force Moving at approximately 10 to 80 percent slower than fabricated fabrics (d), the transfer of fibers to dried fabrics is through hot air with a load layer and a three-dimensional plinth layer. The plinth floor has an embossed pattern lengthwise from approximately 5 to approximately 300 square inches, which is made by the pressed part of the thread that is woven into the fabric in the machine line of the fabric. Inter-plane plane formed by the upper surface of the receiving layer The forces and the plane that arise from the top of the longitudinal convexity in the line The plinth is at least 30 percent of the extruded thread diameter. And where the fibers were rearranged to look Visually fit the surface of the dried fabric by passing hot air and (e) drying the fiber sheet by passing hot air.9 6. The method follows claim 95, where the plane difference is from 30 to 150 percent of the extruded yarn diameter 9 7. The method follows claim 95, where the plane difference is from 70 to 100 percent of the extruded yarn diameter 9 8. The method follows claim 95, where the plane difference is from approximately 90 percent of the compressed yarn diameter. 9 9. Method according to claim 95, where the extruded thread diameter is from 0. 005 inches to about 0. 05 inches 10 0. Method according to claim 95, in which the number of contours formed in the line The machine is from approximately 10 to approximately 150 seams square inches 10 1. Method according to claim 95, in which the number of contours formed in the line The machine is from approximately 10 to approximately 75 square inches per 10 2. Method according to claim 95, in which the transfer cloth has a load layer and a three-dimensional sculpture layer. The sculpture has a long relief in the line. The machine from approximately 5 to approximately 300 square inches is made with the pressed part of the yarn transferred into the machine direction of the fabric. The plane difference between the planes caused by the upper surface of the load layer and the plane caused by The top layer of the long contours The apparatus in the sculpture is at least 30 percent of the diameter. Center of compressed yarn 10 3. Method according to claim 95, in which the number of contours formed in the line The machine in the transfer fabric is from approximately 10 to approximately 150 seams 10 square inches. 4. Method according to claim 95, in which the number of contours formed in the line The machine in the transfer fabric is from approximately 10 to approximately 75 square inches per 10 5. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (d). Transfer of the fiber sheet to the dried fabric by passing through hot air with the Longitudinal relief from approximately 5 to approximately 300 per square inch. Elevated At least about 0. 0005 inches above the plane, formed by the highest point of the transverse and machine embossing of the fabric, in which the fibers are rearranged visible to the naked eye to the surface shape of the dried fabric. By passing hot air and (e) drying the fibers by passing hot air to produce the fibers that make It dries through hot air with a uniform density. With total volume when compressed in wet condition (WCB) in approximately 4. 5 or more than 10 6. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (d). Transfer of the fiber sheet to the dried fabric by passing through hot air with the Longitudinal relief from approximately 5 to approximately 300 per square inch. Elevated At least about 0. 005 inches above the plane formed by the highest point of the bulge in the machine transverse direction of the fabric, where the fibers are rearranged visible to the naked eye to the surface shape of the dried fabric. By passing hot air and (e) drying the fibers by passing hot air to produce the fibers that make It is dry in hot air with a uniform density. With a return spring in wet state (WS) in about 50% or more 10 7. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (d). Transfer of the fiber sheet to the dried fabric by passing through hot air with the Longitudinal relief from approximately 5 to approximately 300 per square inch. Elevated At least about 0. 0005 inches above the plane formed by the highest point of the bulge in the machine transverse direction of the fabric, where the fibers are rearranged visible to the naked eye to the surface shape of the dried fabric. By passing hot air and (e) drying the fibers by passing hot air to produce the fibers that make It dries through hot air with a uniform density. Where the ratio of load energy (LER) is about 50 percent or more than 10 8. Method according to claim 105, 106 or 107 in which the number of elongated contours in the machine line is from approximately 10 to approximately 150 per square inch 10 9. Method according to claim 105, 106 or 107, in which the number of contoured contours in the machine line is from approximately 10 to approximately 75 square inches per 11 0. Method according to claim 105, 106 or 107 in which the number of embossed images Length in the machine line from about 5 to approximately 300 stitches per square inch. Which was raised about 0. 005 inches or more above the plane formed by the highest point of the relief in the machine direction of the transfer cloth 11 1. Method according to claim 110, in which the number of contours formed in the line The machine in the transfer cloth machine is from approximately 10 to approximately 150 square inches per 11 2. Method according to claim 110, in which the number of contours formed in the line The machine in the transfer fabric is from approximately 10 to approximately 75 seams 11 inch square 3. Method according to claim 105, 106 or 107 in which the fibers are dried by Through hot air is rolled with 11 rollers 4. Method according to claim 105, 106 or 107 in which the fibers are dried by Through hot air being wrinkled 11 5. Method according to claim 105, 106 or 107 in which the fibers are dried by Through hot air, it is not wrinkled 11 6. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on shaping cloth to make wet fiber sheets (b) removal of water from wet fibers until concentrations are from about 20 to about 30 percent. (c) Transfer of dehydrated filament sheets from the shaping cloth to the working transfer cloth. Moving at a speed slower than the fabric made from about 10 to about 80 percent. There is an elongated bulge in the machine line from approximately 5 to approximately 300 per square inch. Raised At least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction. Of transfer fabric In which the fibers are rearranged visible to the naked eye to match the shape with the surface of the transfer cloth and. (c) Transfer of sheets to the dried fabrics through hot air and dehydration to produce a uniform density sheet with approximate total volume when pressed in wet state (WCB). 4. 5 or more 11 7. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force Moving at a speed slower than the fabric made from about 10 to about 80 percent. There is an elongated bulge in the machine line from approximately 5 to approximately 300 per square inch. Raised At least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction. Of transfer fabric In which the fibers were rearranged to see With the naked eye And (d) the transfer to the dried fabric by passing through hot air and drying the sheet to produce a uniform density sheet at The total volume when compressed in wet condition (WCB) is approximately 4. 5 or more 11 8. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force Moving at a speed slower than the fabric made from about 10 to about 80 percent. There is an elongated bulge in the machine line from approximately 5 to approximately 300 per square inch. Raised At least about 0. 005 inches above the plane formed by the highest point of the relief in the horizontal direction. Of transfer fabric In which the fibers were rearranged that were visible to the naked eye And (d) the transfer to the dried fabric by passing through hot air and drying the sheet to produce a uniform density sheet at Have a load energy ratio (LER) of about 50 percent or more 11 9. The method according to claim 116, 117 or 118, in which the number of embossed images Length in the machine line from about 10 to about 150 square inches per 12 0. The method according to claim 116, 117 or 118, in which the number of embossed images Length in the machine line from approximately 10 to approximately 75 joints square inches 12 1. Method for making tissue products that are dried by passing through soft, smooth hot air containing (a) the suspension of the paper fibers in a water-tight medium. Concentration of approximately 20% or more (b) mechanical action Obtain the suspension in aqueous medium at approximately 140 ° F. Or more, where it is heated by an external heat source with an input power of about 1 horsepower per day, a ton of dry fibers or more. (c) Solidification of the suspension in the aqueous medium of the processed fibers. Mechanical and then diluted to a concentration of approximately 0. 5 percent or lower and suspended solids feeding (D) the combination of a temporary or permanent wet strength additive into one such layer, or More than (e) the accumulation of the suspension in the diluted aqueous medium on the shaping cloth. (F) removal of water from wet fiber sheets to concentrations ranging from approximately 20 to approximately 30% (g). Transfer of dehydrated filament sheets from photo fabric to fabric. power Moving at a slower speed than the shaping fabric, from about 10 to about 80 percent (h), the transfer of the fiber sheet to the dried fabric is passed through hot, embossed air. The length of the machine line from about 5 to approximately 300 square inches, which is raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the machine transverse direction of the fabric being Drying through hot air Therefore, the fibers will be rearranged that is visible to the naked eye. The figure with the surface of the fabric is dried by hot air (i). The filament is heated through the heat to the final dry. With a density that is considered consistent And the total volume when compressed in wet condition (WCB) is approximately 4. 5 or more and (j) rolling of the dried fibers with rollers. 12 2. The method for making tissue products that is dried through soft, smooth heating involves (a) the suspension of the paper fibers in a water-tight medium. Concentrate about 20 percent or more. (b) Mechanical operations with suspensions in aqueous medium at approximately 140 ° F. It was heated by an external heat source with an input power of approximately 1 hp per tonne of dry fibers or more (c) aqueous suspension of the fibers being processed. Mechanical, then diluted to a concentration of approximately 0. 5 percent or lower and suspended solids feeding Which is then diluted to the tissue dispenser, the layer is made Two or more substrates (d) incorporate a temporary or permanent wet strength additive into one or more such substrates (e) the accumulation of suspended solids in a diluted aqueous medium. Then onto the cloth to make a picture (F) removal of water from wet fiber sheets to a concentration of approximately 20 to approximately 30% (g). Transfer of dehydrated filament sheets from photo fabric to fabric. power It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (h). Transferring the filament to the dried fabric by passing through hot, welded air. An elongated relief in the machine line from approximately 5 to approximately 300 square inches, which is raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the machine transverse direction of the fabric that Being dried through hot air Therefore, the fibers will be rearranged that is visible to the naked eye. Figure on the surface of the fabric dried by passing hot air (i) Drying the fibers by passing hot air to final dryness. With a density that is considered consistent The total volume when pressed in wet condition (WS) was approximately 50% or more and (j) extruding the dried fibers with 12 rollers. 3. Method for making tissue products that are dried by passing through hot, uncracked, soft air containing (a) the making of paper-making fiber suspensions in a water-sensitive medium. Concentration of approximately 20% or more (b) mechanical action with a suspension in aqueous medium at approximately 140 ° F. It was heated by an external heat source with an input power of approximately 1 horsepower per day per ton of dry fibers or more (c) aqueous medium suspension of the fibers being processed. Mechanical, then diluted to a concentration of approximately 0. 5 percent or lower and suspended solids feeding (D) the combination of a temporary or permanent wet strength additive into one such layer, or More than (e) the accumulation of suspended solids in the drought-diluted aqueous medium on the shaping cloth. To make the wetted sheet (f), the removal of water from the wet fiber mat has a concentration of approximately 20 to about 30 percent. (g) The transfer of dehydrated filament sheets from the shaping cloth to the working transfer cloth. Moving at a slower speed than the shaping fabric, from about 10 to about 80 percent (h), the transfer of the fiber sheet to the dried fabric is passed through hot, embossed air. The length of the machine line from about 5 to approximately 300 square inches, which is raised at least about 0. 005 inches above the plane formed by the highest point of the relief in the machine transverse direction of the fabric to be Drying through hot air Therefore, the inner sheet will be rearranged that is visible to the naked eye. Figure on the surface of the fabric dried by passing hot air (i) Drying the fibers by passing hot air to final dryness. With a uniform density And the load capacity (LER) ratio of about 50 percent or more, and (i) rolling of the sheets dried with rollers 12 4. Method according to the claim that 105,106,107,116,117,118,121,122 or 123, where the length of the relief in the machine line is from approximately 0. 030 inches to about 0. 425 inches 12 5. Method according to the claim that 105,106,107,116,117,118,121,122, or 123, where the length of the relief in the machine line is from approximately 0. 05 inches to about 0. 25 inches 12 6. Method according to the claim that 105,106,107,116,117,118,121,122, or 123, where the length of the relief in the machine line is from approximately 0. 1 inch to about 0. 2 inches 12 7. Method according to the claim that 105,106,107,116,117,118,121,122, or 123, where the bulge in the machine line is across the top from about 2 to about 15, the cross thread 12 8. Method according to the claim that 105,106,107,116,117,118,121,122, or 123, where the bulge in the machine line is across the top from approximately 3 to approximately 11, the cross thread 12 9. Method according to the claim that 105,106,107,116,117,118,121,122, or 123 where the bulge in the machine line is across the top from about 3 to about 7, the transverse thread 13 0. Method according to the claim that 105,106,107,116,117,118,121,122, or 123, where the bulge in the machine line will appear overlapping when viewed in the direction across the machine.13 1. Method according to the claim that 105,106,107,116,117,118,121,122, or 123, where the height of the elongated contour Machine as measured by the difference of the plane between The plane formed by the highest point of the elongated relief in the machine line. And the plane formed from the high point Most of the diagonal threads are from approximately 30 to approximately 150 percent of their diameter. Of warp threads that create elongated bumps in machine lines. 13 2. Method according to the claim that 105,106,107,116,117,118,121,122, or 123, where the height of the elongated contour Machine as measured By the difference of the plane between The plane formed by the highest point of the elongated relief in the machine line. And the plane formed from the high point Most of the diagonal threads are from approximately 70 to approximately 110 percent of their diameter. Of the protruding thread causing a long bulge in the machine line 13 3. A method of tissue fabrication consisting of (a) the suspended deposition of paper-making fibers in an aqueous medium at Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force Moving at approximately 10 to 80 percent slower than fabricated fabrics (d), the transfer of fibers to dried fabrics is through hot air with a load layer and a three-dimensional plinth layer. The plinth has a series of reliefs that stretch approximately five to 300 square inches of machine length, which are made by pressed threads that are woven into the machine line of the fabric. Of the inter-plane plane formed by the upper surface of the receiving layer Forces and planes that arise from the top of the contour The plinth layer is at least 30 percent of the diameter of the pressed yarn. And where the fibers were rearranged to look It is visible to the naked eye to form with the surface of the fabric dried by passing hot air and (e) drying the fibers by passing hot air in such a way that the fibers It has a uniform density and total volume when compressed in wet condition of approximately 4. 5 or more 13 4. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on fabricated to form wet fiber sheets (b) removal of water from wet fiber sheets to a concentration from approximately 20 to approximately 30 percent (c) Transfer of dehydrated fibers. From photo fabric to transfer fabric that is in force It moves at a slower speed than the shaping fabric, from about 10 to about 80 percent (d). The transfer of the filament to the dried fabric by passing through hot air with the load layer and the dimensional plinth layer. The carvings floor has a series of reliefs from approximately 5 to approximately 300 square inches long, which are made. By the compressed yarn that was woven into cloth In the machine line of the fabric, where the plane difference between the planes caused by the upper surface of the receiving layer The force and force arising from the top of the longitudinal contour The machine in the plinth layer is at least 30 percent the diameter of the extruded thread. And where the fibers were rearranged to look It is visible to the naked eye to form with the surface of the fabric dried by passing hot air and (e) drying the fibers by passing hot air in such a way that the fibers Will have a density that is considered uniform And it rebounded in wet condition (WS) about 50 percent or more 13 4. A method for making tissue sheets containing (a) the accumulation of paper-making fibers suspensions in a water-sensitive medium. Concentrate about 1 percent or less on photo-fabricated fabrics to make wet fiber sheets (b) water removal from wet fiber sheets until hair intensity from about 20 to about 30 percent (c) water-depleted fiber transfer. And then arrange the water from the fabric to make the image to fight the transfer cloth that is Moving at approximately 10 to 80 percent slower than fabricated fabrics (d), the transfer of fibers to dried fabrics is through hot air with a load layer and a three-dimensional plinth layer. The plinth floor has an embossed pattern lengthwise from approximately 5 to approximately 300 square inches, which is made by the pressed part of the thread that is woven into the fabric in the machine line of the fabric. Inter-plane plane formed by the upper surface of the receiving layer Forces and planes that arise from the top of the contour The plinth is at least 30 percent of the extruded thread diameter. And where the fibers were rearranged to look It is visible to the naked eye to form with the surface of the fabric dried by passing hot air and (e) drying the fibers by passing hot air in such a way that the fibers Will have a density that is considered uniform And the ratio of load energy is approximately 50 percent or more 13 6. The method follows claim 133, 134, or 135, where the plane difference is from approximately 30 to 150 percent of the extruded thread diameter 13 7. Method according to claim 133,134 or 135, where the plane difference is from approximately 70 to 100 percent of the compressed yarn diameter 13 8. The method follows claim 133,134 or 135, where the plane difference is from approximately 90 percent of the extruded thread diameter. 13 9. The method according to claim 133,134 or 135, where the extruded yarn diameter is approximately 0. 005 inches to about 0. 05 inches 14 0. The method follows claim 133,134 or 135 where the number of elongated contours in the machine line is from approximately 10 to approximately 150 per square inch 14. 1. Method according to claim 133,134 or 135, where the number of elongated contours in the machine line is from approximately 10 to approximately 75 square inches per 14. 2. Method according to claim 133,134 or 135 in which the transfer cloth has a load and layer Three dimensional sculpture The sculpture has a long relief in the line. Machines from about 5 to about 300 square inches per square inch. Which is made by the pressed part of the yarn which is woven into the fabric transferred in the machine direction of the fabric where the plane difference between the planes is caused by the upper face of the load layer and the plane formed by the top of the relief. Shaped in a long line The machine in the plinth layer is at least 30 percent of the diameter of the pressed yarn 14. 3. Method according to claim 133,134 or 135, where the number of elongated contours in the transfer fabric is from approximately 10 to approximately 150 14 square inches. 4. Method according to claim 133, 134 or 135, where the number of elongated contours in the transfer fabric is from approximately 10 to approximately 75 square inches.