A method and apparatus for decortication of fibrous plant stalks, involving first flattening the plant stalk, splitting the two substantially planar stalk sides one from the other; then bending each planar stalk such that the flat stalk piece with the hurd is on the outside of the bend and fibrous bast on the inside of the bend; separating the segments such that the bast begins to pull away from the hurd that spans the gap between the bent segments; peeling the bast from the broken hurd. The resultant bast fiber ribbon is valuable to textile and composite manufacturing industries while the leftover hurd is suitable for a wide range of uses.

A method and apparatus for decortication of fibrous plant stalks, involving first flattening the plant stalk, splitting the two substantially planar stalk sides one from the other; then bending each planar stalk such that the flat stalk piece with the hurd is on the outside of the bend and fibrous bast on the inside of the bend; separating the segments such that the bast begins to pull away from the hurd that spans the gap between the bent segments; peeling the bast from the broken hurd. The resultant bast fiber ribbon is valuable to textile and composite manufacturing industries while the leftover hurd is suitable for a wide range of uses.

Method and apparatus for decortication of plant stalks, involving flattening the plant stalk into two substantially planar stalk sides adjoined at their edges; splitting the two substantially planar stalk sides one from the other; bending the flat stalk piece with the hurd on the outside of the bend and bast on the inside of the bend; separating the segments such that the bast pulls away from the hurd and spans the gap between the two segments; bringing a stripper into abutment with the spanning bast and moving the stripper so as to draw the bast, which strips the bast away from the hurd; and removing the bast from the stripper.

Method and apparatus for decortication of plant stalks, involving flattening the plant stalk into two substantially planar stalk sides adjoined at their edges; splitting the two substantially planar stalk sides one from the other; bending the flat stalk piece with the hurd on the outside of the bend and bast on the inside of the bend; separating the segments such that the bast pulls away from the hurd and spans the gap between the two segments; bringing a stripper into abutment with the spanning bast and moving the stripper so as to draw the bast, which strips the bast away from the hurd; and removing the bast from the stripper.

The method disclosed relates to the production of paper yarn from cellulose-containing plant species, in the textile sector, and particularly relates to obtaining a paper yarn by a wet spinning method using high or low purity cellulose raw material isolated from the wild plant species of Calluna Vulgaris.

The method disclosed relates to the production of paper yarn from cellulose-containing plant species, in the textile sector, and particularly relates to obtaining a paper yarn by a wet spinning method using high or low purity cellulose raw material isolated from the wild plant species of Calluna Vulgaris.

A continuous processing device for forming bamboo fiber includes a machine rail, a cart guide rail, a cart, and a clamp for clamping a bamboo strip. The cart and the clamp are connected through a connecting plate. The machine rail is formed with a slot along a path of the machine rail. The machine rail includes a head linear rail section, a conical spiral rail section and a tail linear rail section arranged in sequence. The cart guide rail includes a head linear guide rail section, a conical spiral guide rail section and a tail linear guide rail section arranged in sequence. A continuous processing method for forming bamboo fiber using the continuous processing device is disclosed.

A continuous processing device for forming bamboo fiber includes a machine rail, a cart guide rail, a cart, and a clamp for clamping a bamboo strip. The cart and the clamp are connected through a connecting plate. The machine rail is formed with a slot along a path of the machine rail. The machine rail includes a head linear rail section, a conical spiral rail section and a tail linear rail section arranged in sequence. The cart guide rail includes a head linear guide rail section, a conical spiral guide rail section and a tail linear guide rail section arranged in sequence. A continuous processing method for forming bamboo fiber using the continuous processing device is disclosed.

A continuous processing device for forming bamboo fiber includes a machine rail, a cart guide rail, a cart, and a clamp for clamping a bamboo strip. The cart and the clamp are connected through a connecting plate. The machine rail is formed with a slot along a path of the machine rail. The machine rail includes ahead linear rail section, a conical spiral rail section and a tail linear rail section arranged in sequence. The cart guide rail includes ahead linear guide rail section, a conical spiral guide rail section and a tail linear guide rail section arranged in sequence. A continuous processing method for forming bamboo fiber using the continuous processing device is disclosed. The present invention can quickly and efficiently produce a large quantity of high-quality bamboo fiber, greatly saving the production time of bamboo fiber, improving the production efficiency, and reducing the production cost.

A continuous processing device for forming bamboo fiber includes a machine rail, a cart guide rail, a cart, and a clamp for clamping a bamboo strip. The cart and the clamp are connected through a connecting plate. The machine rail is formed with a slot along a path of the machine rail. The machine rail includes ahead linear rail section, a conical spiral rail section and a tail linear rail section arranged in sequence. The cart guide rail includes ahead linear guide rail section, a conical spiral guide rail section and a tail linear guide rail section arranged in sequence. A continuous processing method for forming bamboo fiber using the continuous processing device is disclosed. The present invention can quickly and efficiently produce a large quantity of high-quality bamboo fiber, greatly saving the production time of bamboo fiber, improving the production efficiency, and reducing the production cost.