CN108297606B - Auxiliary assembly of preparation wool felt work of art - Google Patents

Abstract

The invention provides auxiliary equipment for manufacturing wool felt artwork, which comprises a rotary screen and a hand table, wherein the rotary screen comprises a rotating rod, a screen and a long needle, the screen is hemispherical, one end of the rotating rod is connected with the center of a convex surface of the screen, the end part of the long needle is connected with the center of a concave surface of the screen, a hemispherical groove is formed in the hand table, and the screen and the hemispherical groove can be combined into a sphere. The rotary mesh enclosure is characterized in that a semi-cylindrical groove is formed in the hand table, one side of the semi-cylindrical groove is flush with the side wall of the hand table, the short edge of the square mesh enclosure is connected with a hinged ring, the rotary mesh enclosure can be connected with the square mesh enclosure through the hinged ring, the long edge of the square mesh enclosure is connected with the hinged ring, the square mesh enclosure can be connected into a cylindrical shape through the hinged ring, and the length of the short edge of the square mesh enclosure is equal to that of the edge of. The invention can reduce the operation difficulty and the manufacture time when manufacturing the wool felt of the ball and the cylinder, and can manufacture the ball and the cylinder with more beautiful appearance, and fingers can not be punctured and injured by the felting needles.

Description

Auxiliary assembly of preparation wool felt work of art

Technical Field

The invention belongs to the field of manual artworks, and particularly relates to auxiliary equipment for manufacturing a wool felt artwork.

Background

The wool felt is made of wool, belongs to a non-woven fabric form in the oldest fabric form in the history records of human at present, and is earlier used by human than the technologies of weaving, knitting and the like.

The handmade wool felt is also called a wool felt DIY, and is used for making various handmade works. Because wool has high-quality performances such as non-weaving property, integral forming property, heat retention property, waterproofness, flame resistance, color fixation property, heat insulation property and the like, people use wool as a high-grade manual artwork manufacturing material, so that the wool felt handicraft is put on an artistic palace.

The manufacturing method of the wool felt mainly comprises three main categories: 1. wet felt method; 2. needle felt method; 3. wet felt plus needled felt mixing. The needle felt method is a felting process which utilizes special felting needles to continuously stab and rub wool with each other so as to better entangle internal fibers. However, the needle felt method requires one hand to fix the wool ball and the other hand to continuously prick the wool ball with the pricker to felt the wool ball, which is very time-consuming to manufacture. Although the simultaneous stabbing of the wool ball by the plurality of needles can increase the manufacturing speed, it is difficult to grasp the stabbing direction of each needle by the plurality of needles simultaneously stabbing the wool ball, so that the fingers fixing the wool ball are easily stabbed by the stabbing needles. Particularly, when the ball body and the cylinder are manufactured, one hand continuously overturns the wool ball, and the other hand continuously stabs the wool ball by the pricking pin. This has a high requirement for the ability to coordinate the two hands, which increases the difficulty of operation. If the two hands are not matched well, the ball body and the cylinder are not beautiful, and fingers are easy to be punctured by the puncture needle and injured in the manufacturing process. The ball and the cylinder are basic parts of the wool felt handcraft artwork, so that a plurality of handcraftsmen can be forbidden, and the wide popularization of the wool felt handcraft art is influenced.

The invention content is as follows:

the invention has the beneficial effects that: the invention can reduce the operation difficulty and the manufacture time when manufacturing the wool felt of the ball and the cylinder, and can manufacture the ball and the cylinder with more beautiful appearance, and fingers can not be punctured and injured by the felting needles.

In order to solve the technical problem, the invention provides auxiliary equipment for manufacturing wool felt artwork, which comprises a rotary mesh enclosure and a hand table, wherein the rotary mesh enclosure comprises a rotating rod, a mesh enclosure and a long needle, the mesh enclosure is hemispherical, one end of the rotating rod is connected with the center of a convex surface of the mesh enclosure, the end part of the long needle is connected with the center of a concave surface of the mesh enclosure, a hemispherical groove is formed in the hand table, and the mesh enclosure and the hemispherical groove can be combined into a sphere.

The invention also can be said to be auxiliary equipment for manufacturing wool felt artwork, wherein a semi-cylindrical groove is arranged on the hand table, one side of the semi-cylindrical groove is flush with the side wall of the hand table, the short edge of the square net piece is connected with a hinged ring, the rotary net cover can be connected with the square net piece through the hinged ring, the long edge of the square net piece is connected with a hinged ring, the square net piece can be connected into a cylinder shape through the hinged ring, and the length of the short edge of the square net piece is equal to the length of the edge of the net cover.

The hand table is made of foam.

The length of the long needle is more than 2 times of the axial length of the mesh enclosure and is less than the sum of the axial length of the mesh enclosure and the thickness of the workbench.

The mesh enclosure is made of soft polyvinyl chloride.

The mesh enclosure is transparent.

The square net sheet is made of soft polyvinyl chloride.

The square mesh is transparent.

The hinged ring is a split ring.

The hinge ring is a split ring.

The length of the semi-cylinder groove is larger than that of the square mesh.

The invention also can be said to be an auxiliary device for manufacturing wool felt by a needle felt method, two axially through grids are arranged on the mesh cover, and the two axially through grids are opposite.

The square net piece is provided with a grid which is through in the length direction.

The invention also can be said to be an auxiliary device for manually making wool felt, and the rotating rod is connected with a baffle.

The shape of the baffle is arc-shaped.

The separation blade is the cambered surface.

The blocking piece can block the net cover.

The rotating rod is provided with threads, and the middle of the baffle plate is provided with a threaded hole matched with the threads.

The rotating rod is connected with the blocking piece through threads.

The blocking piece is made of soft polyvinyl chloride.

The invention also can be said to be auxiliary manufacturing equipment of a wool felt artwork basic part, and the bottom of the hand table is connected with a felting device.

The invention can also be said to be an auxiliary device for manufacturing a wool felt artwork basic component by a needle felt method, the felting device comprises a frame body, a spherical felting device and a cylindrical felting device, the bottom of a hand table is connected with the frame body, the spherical felting device is positioned in the frame body, the bottom surface of the frame body is connected with the spherical felting device, the spherical felting device is positioned right below a semi-sphere groove, the cylindrical felting device is positioned in the frame body, the bottom surface of the frame body is connected with the cylindrical felting device, and the cylindrical felting device is positioned right below the semi-sphere groove.

The invention can also be said to be an auxiliary device for manufacturing wool felt artwork by adopting a needle felt method, the felting device of the sphere comprises a first spring, a first base, a first connecting rod, a first sliding block, a first push rod, a first sliding rail, a first connecting plate and a first felting needle, the bottom surface of the frame body is connected with the bottom end of the first spring, the top end of the first spring is connected with the bottom surface of the first base, the side surface of the first base is connected with the front surface of the first sliding block through the first connecting rod, the inner side surface of the frame body is connected with the first sliding rail, the first sliding rail is connected with the first sliding block in a sliding manner, the side surface of the first sliding block is connected with the first push rod, the top surface of the first base is connected with the bottom surface of the first connecting plate, and the first felting needle is connected on the first.

The cross section of the frame body is U-shaped.

The first connecting plate is in a cross shape, and the cross-shaped intersection is positioned right below the center of the hemispherical groove.

The number of the first felting needles is at least 8.

The first felting needles are radially arranged on the first connecting plate around the crisscross intersection.

The longer the first felted needle is from the cross-shaped intersection.

The first push rod extends out of the frame body.

The invention can also be said to be auxiliary equipment for manufacturing the wool felt handcraft artwork, the felting device of the cylinder comprises a second spring, a second base, a second connecting rod, a second sliding block, a second push rod, a second sliding rail, a second connecting plate and a second felting needle, the bottom surface of the frame body is connected with the bottom end of the second spring, the top end of the second spring is connected with the bottom surface of the second base, the side surface of the second base is connected with the front surface of the second sliding block through the second connecting rod, the inner side surface of the frame body is connected with the second sliding rail, the second sliding rail is connected with the second sliding block in a sliding manner, the side surface of the second sliding block is connected with the second push rod, the top surface of the second base is connected with the bottom surface of the second connecting plate, and the second felting needle is connected onto the second.

The second connecting plate is rectangular.

The second connecting plate is positioned right below the shaft of the semi-cylindrical groove.

The second felted needles have at least 5 needles.

The second felted needles are arranged in a single row.

The second felted needles are of equal length.

The second push rod extends out of the frame body.

The invention can also be said to be an auxiliary device for manufacturing wool felt handcraft artwork by a needle felt method, the felting device of the sphere comprises a rotary disc, a first magnet block, a first spring, a first iron block, a first base, a first connecting rod, a first slide block, a first push rod, a first slide rail, a first connecting plate and a first felting needle, the bottom surface of the frame body is connected with the bottom of the rotary disc, the top surface of the rotary disc is connected with the bottom surface of the first magnet block, the top surface of the first magnet block is connected with the bottom end of the first spring, the top end of the first spring is connected with the bottom surface of the first iron block, the top surface of the first iron block is connected with the bottom surface of the first base, the side surface of the first base is connected with the front surface of the first slide block through the first connecting rod, the first connecting rod is respectively connected with the first base and the first slide block, the first base can rotate in the first connecting rod, the inner side surface of the frame body is connected with the first, the side surface of the first sliding block is connected with a first push rod, the top surface of the first base is connected with the bottom surface of a first connecting plate, and a first felting needle is connected onto the first connecting plate.

And the edge of the turntable is connected with a stay wire.

At least 2 stay wires are arranged.

The first spring is made of polyurethane.

The invention can also be said to be an auxiliary manufacturing tool for wool felt artwork, the felting device of the cylinder comprises a third slide rail, a third slide block, a third push rod, a second magnet block, a second spring, a second iron block, a second base, a second connecting rod, a second slide block, a second push rod, a second slide rail, a second connecting plate and a second felting needle, the bottom surface of the frame body is connected with the third slide rail which is connected with the third slide block in a sliding way, the side surface of the third slide block is connected with the third push rod, the front surface of the third slide block is connected with the bottom surface of the second magnet block, the top surface of the second magnet block is connected with the bottom end of the second spring, the top end of the second spring is connected with the bottom surface of the second iron block, the top surface of the second iron block is connected with the bottom surface of the second base, the side surface of the second base is connected with the front surface of the second slide block through the second connecting rod, the second connecting rod is a telescopic rod, the second sliding rail is connected with the second sliding block in a sliding mode, the side face of the second sliding block is connected with the second push rod, the top face of the second base is connected with the bottom face of the second connecting plate, and the second connecting plate is connected with the second felting needle.

The third push rod extends out of the frame body.

The second spring is made of polyurethane.

Drawings

Fig. 1 is a schematic overall and internal structure diagram of the first embodiment.

Fig. 2 is a schematic overall and internal structural diagram of the second embodiment.

Fig. 3 is a schematic structural view of a rotary mesh enclosure and a square mesh sheet according to the second embodiment.

Fig. 4 is a schematic structural diagram of a hand table according to a second embodiment.

Fig. 5 is a schematic structural view of a rotary mesh enclosure according to a third embodiment.

Fig. 6 is a schematic structural view of a square mesh of the third embodiment.

Fig. 7 is a schematic structural view of a rotary mesh enclosure according to a fourth embodiment.

Fig. 8 is a schematic structural diagram of the fifth embodiment.

Fig. 9 is a schematic diagram of the whole and internal structure of the fifth embodiment.

Fig. 10 is a schematic structural view of a felting apparatus for balls according to the fifth embodiment.

Fig. 11 is a schematic structural view of the sixth embodiment.

Fig. 12 is a schematic overall and internal structure diagram of the sixth embodiment.

Fig. 13 is a schematic structural view of a first base and a first connecting rod according to a sixth embodiment.

Number designation in the figures:

1 rotating mesh enclosure, 1.1 rotating rod, 1.2 mesh enclosure, 1.3 long needle, 1.4 axially through mesh, 1.5 baffle, 1.6 screw thread, 1.7 threaded hole, 2 hand table, 2.1 hemispherical groove, 2.2 semi-cylindrical groove, 3 square mesh, 3.1 hinged ring, 3.2 hinged ring, 3.3 length direction through mesh, 4 felting device, 4.1 frame, 4.2 spherical felting device, 4.2.1 first spring, 4.2.2 first base, 4.2.3 first connecting rod, 4.2.4 first slide block, 4.2.5 first push rod, 4.2.6 first slide rail, 4.2.7 first connecting plate, 4.2.8 first felting needle, 4.2.9 rotary table, 4.2.10 first block, 4.2.11 first iron block, 4.2.12 pull wire, 4.3 felting device, 4.3.3 first connecting plate, 4.3.3 second spring, 3.2 second felting needle, 3.2.3 second slide block, 3.2.3.2.2.2 second slide block, 3.3.2.3.3 second slide block, 3.3.3.5932 third slide block, 3.3.3.3.3.3 second slide block, 3.3.3.3.3.3.3.3.3 third slide block, 3.3.3.3.3 needle, 3.3.3.3.3.3 third slide block, 3.3, 3.2, 4.3.12 second magnet block, 4.3.13 second iron block

Detailed Description

The embodiment of the invention is shown in figure 1, and the auxiliary equipment for manufacturing the wool felt artwork comprises a rotary mesh enclosure 1 and a hand table 2, wherein the rotary mesh enclosure 1 comprises a rotating rod 1.1, a mesh enclosure 1.2 and a long needle 1.3, the mesh enclosure 1.2 is in a hemispheroid shape, one end of the rotating rod 1.1 is connected with the convex center of the mesh enclosure 1.2, the end part of the long needle 1.3 is connected with the concave center of the mesh enclosure 1.2, a hemispheroid groove 2.1 is formed in the hand table 2, the mesh enclosure 1.2 and the hemispheroid groove 2.1 can be combined into a sphere, the perimeter of the edge of the mesh enclosure 1.2 is equal to the perimeter of the edge of the hemispheroid groove 2.1, and the axial length of the mesh enclosure 1.2 is equal to the axial length of the hemispheroid groove 2.. This is designed to help make wool spheres. The function of the long needles 1.3 is to fix the felted wool ball and to make the wool ball rotate along with the rotating rod 1.1. Because the wool is entangled around the long needles 1.3 after felting by needling. The design has the advantages that: firstly, the operation difficulty of manufacturing the wool ball is reduced. Because the rotating rod 1.1 can drive the wool ball in the net cover 1.2 to rotate together, one hand is not needed to turn over the wool ball, the other hand is not needed to stab the wool ball, and only one hand is needed to rotate the rotating rod 1.1, the other hand is needed to stab the wool ball, so that the requirement on the coordination and coordination capacity of the two hands is reduced, and the operation difficulty is reduced. Two, the wool spheroid of preparation is more pleasing to the eye, because screen panel 1.2 can close into a spheroid with hemisphere recess 2.1, rotate bull stick 1.1 like this and let the wool ball of putting into in screen panel 1.2 and screen panel 1.2 rotate, stab the wool ball in screen panel 1.2 on one side, then constantly add the wool according to the space between screen panel 1.2 and the wool ball and stab the thorn and maintain, until screen panel 1.2 and the laminating of wool ball, the wool ball in screen panel 1.2 and hemisphere recess 2.1 will form the spheroid with screen panel 1.2 and hemisphere recess 2.1 laminating, the wool spheroid of making like this will be more mellow and more. And thirdly, the fingers cannot be injured by the puncture needle. The wool ball is stabbed without turning over the wool ball and only the rotating rod 1.1 needs to be rotated, the wool ball is arranged in the mesh enclosure 1.2, the rotating rod 1.1 is arranged above the mesh enclosure 1.2, and therefore the fingers rotating the rotating rod 1.1 cannot be stabbed by the stabbing needle when the wool ball is stabbed. The using steps of this embodiment: firstly, rolling wool into a roll and placing the roll into the hemispherical groove 2.1, and pricking the wool roll with a pricking pin, wherein the wool roll can be initially shaped by adhering to the bottom of the hemispherical groove 2.1. If the volume of the preliminarily shaped wool ball is less than 2.1 of the volume in the groove of the hemisphere, a plurality of wool is added, and the wool ball is pricked by the pricker, so that the newly added wool and the felted wool ball are felted together. Secondly, the wool is rolled into a ball and placed in the mesh enclosure 1.2, the mesh enclosure 1.2 with the wool ball is covered on the hemispherical groove 2.1, and the edge of the mesh enclosure 1.2 is overlapped with the edge of the hemispherical groove 2.1. And thirdly, one hand rotates the rotating rod 1.1, the rotating rod 1.1 drives the mesh enclosure 1.2 and the wool ball in the mesh enclosure 1.2 to rotate, and the other hand continuously stabs the wool ball in the mesh enclosure 1.2 by using a felting needle to penetrate through the mesh of the mesh enclosure 1.2, so that the wool ball in the mesh enclosure 1.2 is preliminarily shaped, and the wool ball in the mesh enclosure 1.2 and the wool ball in the groove of the hemisphere 2.1 are felted together. In the process of pricking the wool ball, the wool ball in the net cover 1.2 is required to be rotated all the time, so that the wool under the meshes of the net cover 1.2 can be pricked. While the wool ball is stabbed by the rotating rod 1.1, the gap between the wool ball and the mesh enclosure 1.2 is observed, if the gap is large, a proper amount of wool is added through the meshes of the mesh enclosure 1.2 or from the lower part of the mesh enclosure 1.2 to continue stabbing until the wool ball is completely felted and hardened and the wool ball is attached to the mesh enclosure 1.2. At this time, the wool ball in the net cover 1.2 is stabbed. Fourthly, the rotating rod 1.1 is held to turn over the mesh enclosure 1.2, the rotating rod 1.1 is continuously rotated, and wool balls outside the mesh enclosure 1.2 are stabbed. If necessary, adding appropriate amount of wool to continue stabbing until wool ball is completely felted and hardened and wool ball outside the net cover 1.2 is hemispheroid, and then pulling out wool ball from the long needle 1.3. Certainly, the wool ball in the cover body can be pricked, taken down and rotated by 180 degrees, the wool ball outside the original mesh enclosure 1.2 penetrates through the long needle 1.3 and is plugged into the mesh enclosure 1.2, and then the mesh enclosure 1.2 is covered on the hemispherical groove 2.1, so that the edge of the mesh enclosure 1.2 is overlapped with the edge of the hemispherical groove 2.1. And then one hand rotates the rotating rod 1.1, the rotating rod 1.1 drives the mesh enclosure 1.2 and the wool ball in the mesh enclosure 1.2 to rotate, the other hand continuously stabs the wool ball in the mesh enclosure 1.2 by using a felting needle in the same axial direction of the mesh enclosure 1.2, the wool ball is stabbed while being stabbed by the rotating rod 1.1, the wool ball continues to be felted, a gap between the wool ball and the mesh enclosure 1.2 is observed, if the gap is large, a proper amount of wool is continuously stabbed by the mesh of the mesh enclosure 1.2 or from the lower part of the mesh enclosure 1.2 until the wool ball is completely felted and hardened, and the wool ball is relatively attached to the mesh enclosure 1.2. Then the wool ball is removed. At this time, the wool ball is spherical, and the wool ball is poked. Certainly, after the wool ball is taken down, the wool ball can penetrate into the long needles 1.3 and be plugged into the mesh enclosure 1.2 again when the wool ball is found to be in a place which is not too full and round, the place which is not too full and round is exposed outside the mesh enclosure 1.2, then the rotating rod 1.1 is held by one hand, and the wool ball is stabbed by the felting needle to be locally trimmed, so that the wool ball is more round and round.

In the second embodiment of the invention, as shown in fig. 2-4, a semi-cylindrical groove 2.2 is formed in the hand table 2, one side of the semi-cylindrical groove 2.2 is flush with the side wall of the hand table 2, the short edge of the square mesh 3 is connected with a hinged ring, the rotary mesh enclosure 1 can be connected with the square mesh 3 through the hinged ring, the long edge of the square mesh 3 is connected with the hinged ring 3.2, the square mesh 3 can be connected into a cylinder shape through the hinged ring 3.2, the length of the short edge of the square mesh 3 is equal to the length of the edge of the mesh enclosure 1.2, the square mesh 3 connected into the cylinder shape can be placed in the semi-cylindrical groove 2.2, the radius of the cross section of the semi-cylindrical groove 2.2 is 1.07-1.1 times of the radius of the cross section of the square mesh 3 connected into the cylinder shape, and one side of. This is designed to help make the wool cylinder. The design has the advantages that: firstly, the operation difficulty of manufacturing the wool cylinder is reduced. Because the rotating rod 1.1 can drive wool balls in the net cover 1.2 and the square net piece 3 connected into a cylinder shape to rotate together. Therefore, the wool ball does not need to be turned by one hand and pricked by the other hand, the rotating rod 1.1 only needs to be rotated by one hand, and the wool ball is pricked by the other hand, so that the requirement on the coordination and matching capacity of the two hands is reduced, and the operation difficulty is reduced. The manufactured wool cylinder is more attractive, the net cover 1.2 is enabled to be arranged on one side, the square net pieces 3 connected into the cylindrical shape and wool balls put into the square net pieces 3 connected into the cylindrical shape rotate in the semi-cylinder grooves 2.2, the wool balls in the square net pieces 3 connected into the cylindrical shape are stabbed on the other side, wool stabbing trimming is continuously added into gaps between the square net pieces 3 connected into the cylindrical shape and the wool balls until the square net pieces 3 connected into the cylindrical shape are attached to the wool balls, and the wool balls in the square net pieces 3 connected into the cylindrical shape form can form a cylinder attached to the square net pieces 3 connected into the cylindrical shape. The wool cylinder made in this way is more round and moist. And thirdly, the fingers cannot be injured by the puncture needle. The wool ball is stabbed without turning over the wool ball and only the rotating rod 1.1 needs to be rotated, the wool ball is connected into the cylindrical square net piece 3, one side of the cylindrical square net piece 3 is connected with the net cover 1.2 through the hinge ring 3.2, and the rotating rod 1.1 is arranged on one side of the net cover 1.2, so that fingers of the rotating rod 1.1 cannot be stabbed by the felting needles when the wool ball is stabbed. The using steps of this embodiment: firstly, wool is laid on a square net piece 3, the square net piece 3 is connected into a cylinder shape through a hinge ring 3.2, and one side of the square net piece 3 connected into the cylinder shape is connected with a mesh enclosure 1.2 through the hinge ring 3.2. And secondly, rotating the rotating rod 1.1 by one hand, driving the net cover 1.2, the square meshes 3 connected into a cylindrical shape and the wool put in the square meshes 3 connected into the cylindrical shape to rotate together by the rotating rod 1.1, and continuously stabbing the wool in the square meshes 3 connected into the cylindrical shape by the felting needles of the other hand through the meshes of the square meshes 3 to felt and agglomerate the wool in the square meshes 3 connected into the cylindrical shape and perform primary shaping. In the process of pricking the wool cylinder, the wool ball in the cylindrical square net piece 3 is required to be rotated all the time, and the wool ball in the cylindrical square net piece 3 is required to be moved axially, so that wool under the meshes of the square net piece 3 can be pricked. Rotate bull stick 1.1 while stabbing the wool ball through the limit and let the wool ball continue felting the time, observe the space between wool ball and the screen panel 1.2, if the space is big just add right amount of wool through the net of square net piece 3 and continue to stab, until the wool ball is completely felted the sclerosis and the wool ball is laminated with the square net piece 3 that connects into cylindric. And thirdly, opening the hinge rings 3.2 connected to two adjacent sides of the square net piece 3, pulling out one end of the wool ball stabbed in the step two to form the cylindrical square net piece 3, closing the opened hinge rings 3.2, holding the rotating rod 1.1 by one hand, stabbing one end of the wool ball stabbed in the step two by a pricker by the other hand, and stabbing the other end of the wool ball according to the steps of the step three or more. Fourthly, the hinged rings 3.2 connected with the two adjacent edges of the square net piece 3 are opened and the wool ball is taken out, at the moment, the wool ball is cylindrical, and the wool cylinder is poked. Certainly, the wool cylinder can be poked at a place which is not full and round through the felting needles after being taken down, so that the wool cylinder is more round.

The hand table 2 is made of foam. The arrangement is such that the pricking pin can prick the hand table 2 when pricking a wool ball, and the pricking pin is not damaged by pricking the hand table 2. The length of the long needle 1.3 is more than 2 times of the axial length of the mesh enclosure 1.2 and less than the sum of the axial length of the mesh enclosure 1.2 and the thickness of the workbench. The benefits of this arrangement: one, when stabbing the wool spheroid, can connect the wool ball in preliminary felted wool ball in hemisphere recess 2.1 and the wool ball in the screen panel 1.2, let two wool balls can rotate along with the rotation of bull stick 1.1, stab through the felting needle and let two wool balls can be better combine together. And secondly, the wool cylinder is conveniently and locally trimmed. Because the length of the long needles 1.3 is greater than 2 times of the axial length of the mesh enclosure 1.2, the long needles 1.3 can extend out of the mesh enclosure 1.2, so that the end parts of the punched wool cylinders can be directly inserted into the parts of the long needles 1.3, which are positioned outside the mesh enclosure 1.2, the positions of the wool cylinders, which need to be locally trimmed, are found out, and then the wool cylinders are locally punched and trimmed by the pricking needles while rotating the rotating rods 1.1. And thirdly, the rotating net cover 1 is prevented from rotating and deflecting during rotation, so that the manufactured wool ball is not round and smooth. When the edge of the mesh enclosure 1.2 is overlapped with the edge of the hemispherical groove 2.1, the long needle 1.3 is inserted into the center of the hemispherical groove 2.1, so that the rotating rod 1.1 is rotated, and the long needle 1.3 drives the rotary mesh enclosure 1 to rotate at the insertion point of the long needle 1.3 all the time. The mesh enclosure 1.2 is made of soft polyvinyl chloride. The square net 3 is made of soft polyvinyl chloride. Thus, when the mesh cover 1.2 or the square mesh 3 is pierced by the piercing needle when the wool ball is pierced, the piercing needle is not damaged. The mesh enclosure 1.2 is transparent. The square mesh 3 is transparent. The whole wool ball can be seen when the wool ball is stabbed, and the sight line cannot be blocked. The hinged ring is a split ring. The hinge ring 3.2 is a split ring. The benefits of this arrangement: firstly, the rotary net cover 1 can be used independently or combined with the square net 3 according to the requirement. The rotary net cover 1 is independently used when wool spheres are manufactured, and the rotary net cover 1 and the square net piece 3 are combined when wool cylinders are manufactured. And secondly, the square net piece 3 is convenient to open, so that wool can be conveniently put in or a wool cylinder can be conveniently taken out. Thirdly, wool cylinders with different circumferences of the bottom surface can be manufactured. The square net piece 3 can be connected with the edge of the net cover 1.2 through the hinged ring, and then the long edges of the two outermost sides of the square net piece 3 are connected through the hinged ring 3.2. The square net piece 3 can also be connected with the grid edge on the inner side of the net cover 1.2 through the hinged ring, and then the long edge on the outermost side of the square net piece 3 is connected with the long edge on the inner side of the square net piece 3 through the hinged ring 3.2 according to the perimeter of the grid edge. This makes it possible to vary the circumference of the cross section of the cylinder enclosed by the square mesh 3. The length of the semi-cylinder groove 2.2 is larger than that of the square net 3. The square net piece 3 which is connected into a cylinder shape in the way can be completely placed into the semi-cylinder groove 2.2, and the wool cylinder is convenient to manufacture.

In the third embodiment of the present invention, as shown in fig. 5-6, two axially through grids 1.4 are disposed on the mesh enclosure 1.2, and the two axially through grids 1.4 are opposite. The function of this setting: firstly, the stabbed wool ball is pulled out of the long needle for convenience 1.3. Because the wool in the stabbed wool ball is wound with the long needles 1.3, the stabbed wool ball is not easy to be pulled out of the long needles 1.3 only by pinching the wool ball outside the mesh cover 1.2. And two fingers penetrate through the two opposite axially-through grids 1.4 to pinch the stabbed wool balls close to the inner side of the mesh enclosure 1.2 to move towards the opening of the mesh enclosure 1.2, so that the stabbed wool balls can be pulled out of the long needles 1.3 easily. And secondly, the wool is conveniently added in the process of stabbing the wool spheres. The square net 3 is provided with a grid 3.3 which is through in the length direction. This is provided to facilitate the addition of wool during the process of poking a wool cylinder.

In the fourth embodiment of the present invention, as shown in fig. 7, a blocking plate 1.5 is connected to the rotating rod 1.1. The baffle plate 1.5 is a cambered surface. The baffle plate 1.5 can block the net cover 1.2. The effect of design like this is when turning over rotatory screen panel 1 and stab the wool ball, and separation blade 1.5 on the bull stick 1.1 can prevent that the thorn needle from pricking the finger of taking bull stick 1.1. The rotating rod 1.1 is provided with a thread 1.6, and the middle of the baffle plate 1.5 is provided with a thread 1.6 hole 1.7 matched with the thread 1.6. The rotating rod 1.1 is connected with the baffle plate 1.5 through threads 1.6. The distance between the baffle plate 1.5 and the mesh cover 1.2 can be adjusted through the threads 1.6. The baffle sheet 1.5 is made of soft polyvinyl chloride. When the needle is used for pricking the wool ball to the baffle plate 1.5, the needle is not damaged.

In the fifth embodiment of the present invention, as shown in fig. 8 to 10, a felting device 4 is connected to the bottom of the hand table 2. The felting device 4 comprises a frame body 4.1, a spherical felting device 4.2 and a cylindrical felting device 4.3, the bottom of the hand table 2 is connected with the frame body 4.1, the spherical felting device 4.2 is positioned in the frame body 4.1, the bottom surface of the frame body 4.1 is connected with the spherical felting device 4.2, the spherical felting device 4.2 is positioned under the hemispherical groove 2.1, the cylindrical felting device 4.3 is positioned in the frame body 4.1, the bottom surface of the frame body 4.1 is connected with the cylindrical felting device 4.3, and the cylindrical felting device 4.3 is positioned under the semi-cylindrical groove 2.2.

The felting device 4.2 of the sphere comprises a first spring 4.2.1, a first base 4.2.2, a first connecting rod 4.2.3, a first slider 4.2.4, a first push rod 4.2.5, a first slide rail 4.2.6, a first connecting plate 4.2.7 and a first felting needle 4.2.8, wherein the bottom surface of the frame 4.1 is connected with the bottom end of the first spring 4.2.1, the top end of the first spring 4.2.1 is connected with the bottom surface of the first base 4.2.2, the side surface of the first base 4.2.2 is connected with the front surface of the first slider 4.2.4 through a first connecting rod 4.2.3, the two ends of the first connecting rod 4.2.3 are respectively connected with the side surface of the first base 4.2.2 and the front surface of the first slider 4.2.4, the inner side surface of the frame 4.1 is connected with a first slide rail 4.2.6, the first slider 4.2.6 is connected with the first slider 4.2.4.4.2.2.2, the side surface of the first slide rail 4.2.2.2.2 is connected with the first push rod 368, and the top surface of the first base 4.2.2.2.2.2 is connected with the first connecting plate. The bottom surface of the frame body 4.1 is connected with a first spring 4.2.1, a first base 4.2.2, a first connecting plate 4.2.7 and a first felting needle 4.2.8 in sequence from bottom to top. The operational principle of the felting device 4.2 of the ball of the present embodiment is as follows: the first push rod 4.2.5 is pushed upwards, the first push rod 4.2.5 can drive the first sliding block 4.2.4 to slide upwards on the first slide rail 4.2.6, the first connecting rod 4.2.3 connected with the first sliding block 4.2.4, the first base 4.2.2 connected with the first connecting rod 4.2.3, the first connecting plate 4.2.7 connected with the first base 4.2.2 and the first felting needle 4.2.8 connected with the first connecting plate 4.2.7 can move upwards, the first spring 4.2.1 is stretched, and the first felting needle 4.2.8 pierces through the hand table 2 above and pierces through a wool ball in the groove 2.1 of the semi-spherical body; the first push rod 4.2.5 is pushed downwards, the first push rod 4.2.5 can drive the first slide block 4.2.4 to slide downwards on the first slide rail 4.2.6, the first connecting rod 4.2.3 connected with the first slide block 4.2.4, the first base 4.2.2 connected with the first connecting rod 4.2.3, the first connecting plate 4.2.7 connected with the first base 4.2.2 and the first felting needle 4.2.8 connected with the first connecting plate 4.2.7 can move downwards, the first spring 4.2.1 rebounds to restore the original shape and drives the first felting needle 4.2.8 of the wool cluster in the groove 2.1 of the penetrating body to pull out the wool cluster and pull out the hand table 2. Like this through the first push rod 4.2.5 of repeated upwards, the promotion downwards, let the first felting needle 4.2.8 repeated pierce, pull out the wool ball in the hemisphere recess 2.1 to make the wool ball in the hemisphere recess 2.1 tentatively shape. The cross section of the frame body 4.1 is U-shaped. The first connecting plate 4.2.7 is in the shape of a cross, and the cross-shaped intersection is located right below the center of the hemisphere groove 2.1. At least 8 first felting needles 4.2.8 are provided. The first felted needles 4.2.8 are arranged radially around the cruciform intersection on the first web 4.2.7. The first felted needle 4.2.8 is not arranged at the cross-shaped intersection. Because the center of the hemispherical recess 2.1 will insert the long needle 1.3. The first felted needles 4.2.8 are longer the further away from the cross-shaped intersection. The wool balls in the hemispherical grooves 2.1 are pricked by the plurality of needles, so that the felting speed of the wool balls in the hemispherical grooves 2.1 can be increased. The farther the bottom of the hemisphere groove 2.1 is from the center of the hemisphere groove 2.1, the longer the distance to the first connection plate 4.2.7. Thus, each first felted needle 4.2.8 can penetrate into the wool ball in the hemispherical groove 2.1. The first push rod 4.2.5 extends out of the frame 4.1. This facilitates the pushing of the first push rod 4.2.5.

The felting device 4.3 of cylinder includes second spring 4.3.1, second base 4.3.2, second connecting rod 4.3.3, second slider 4.3.4, second push rod 4.3.5, second slide rail 4.3.6, second connecting plate 4.3.7, second felting needle 4.3.8, the bottom surface of frame 4.1 links to each other with the bottom of second spring 4.3.1, the top of second spring 4.3.1 links to each other with the bottom surface of second base 4.3.2, the side of second base 4.3.2 links to the front of second slider 4.3.4 through second connecting rod 4.3.3, the both ends of second connecting rod 4.3.3 link to the side of second base 4.3.2 and the front of second slider 4.3.4 respectively, the medial surface of frame 4.1 connects to second slide rail 4.3.6, second slide rail 4.3.6 and second slider 4.3.4, the side of second slider 357 links to the top surface of second base 355.355, the top surface of second base 4.3.3526 is connected to the second connecting plate 3668, the top surface of second push rod 355.3526 is connected to the second slider 369.3.3.3.3.3.3.3.3.3. The bottom surface of the frame body 4.1 is connected with a second spring 4.3.1, a second base 4.3.2, a second connecting plate 4.3.7 and a second felting needle 4.3.8 in sequence from bottom to top. The working principle of the cylindrical felting device 4.3 of the present embodiment is as follows: the second push rod 4.3.5 is pushed upwards, the second push rod 4.3.5 can drive the second slide block 4.3.4 to slide upwards on the second slide rail 4.3.6, the second connecting rod 4.3.3 connected with the second slide block 4.3.4, the second base 4.3.2 connected with the second connecting rod 4.3.3, the second connecting plate 4.3.7 connected on the second base 4.3.2 and the second felting needle 4.3.8 connected on the second connecting plate 4.3.7 can move upwards, the second spring 4.3.1 is stretched, and the second felting needle 4.3.8 pierces the hand table 2 above and pierces wool balls in the cylindrical square net 3 on the semi-cylindrical groove; the second push rod 4.3.5 is pushed downwards, the second push rod 4.3.5 drives the second slide block 4.3.4 to slide downwards on the second slide rail 4.3.6, the second connecting rod 4.3.3 connected with the second slide block 4.3.4, the second base 4.3.2 connected with the second connecting rod 4.3.3, the second connecting plate 4.3.7 connected with the upper surface of the second base 4.3.2 and the second felting needle 4.3.8 connected with the second connecting plate 4.3.7 all move downwards, and the second spring 4.3.1 rebounds to restore the original shape and drives the second felting needle 4.3.8 which penetrates into the cylindrical square mesh 3 on the semi-cylindrical groove 2.2 to pull out the wool ball and pull out the hand table 2. Thus, the second push rod 4.3.5 is repeatedly pushed upwards and downwards by one hand, so that the second felting needle 4.3.8 repeatedly penetrates into and pulls out the wool ball in the cylindrical square mesh 3 connected on the semi-cylindrical groove 2.2, and the rotating rod 1.1 is rotated by the other hand, thereby preliminarily shaping the wool ball in the cylindrical square mesh 3 connected. The cross section of the frame body 4.1 is U-shaped. The second web 4.3.7 is rectangular in shape. The second web 4.3.7 is located directly below the axis of the semi-cylindrical recess 2.2. The second felted needle 4.3.8 has at least 5 needles. The second felted needles 4.3.8 are arranged in a single row. The second felted needles 4.3.8 are of equal length. The arrangement can accelerate the felting speed of wool balls in the square net piece 3 connected into a cylindrical shape on the semi-cylindrical grooves 2.2 by rotating the rotating rod 1.1. The second push rod 4.3.5 extends out of the frame 4.1. This facilitates the pushing of the second push rod 4.3.5.

Sixth embodiment of the present invention as shown in fig. 11 to 13, the felting device 4.2 of the ball body includes a rotary table 4.2.9, a first magnet block 4.2.10, a first spring 4.2.1, a first iron block 4.2.11, a first base 4.2.2, a first connecting rod 4.2.3, a first slider 4.2.4, a first push rod 4.2.5, a first sliding rail 4.2.6, a first connecting plate 4.2.7, and a first felting needle 4.2.8, a bottom surface of the frame 4.1 is connected to a bottom of the rotary table 4.2.9, an upper surface of the rotary table 4.2.9 is connected to a bottom surface of the first magnet block 4.2.10, a top surface of the first magnet block 4.2.10 is connected to a bottom end of the first spring 4.2.1, a top end of the first spring 4.2.1 is connected to a bottom surface of the first iron block 4.2.11, a top surface of the first iron block 4.2.11 is connected to a bottom surface of the first base 4.2.2.2.2.2.2.2, a front surface of the first slider is connected to a front surface of the first base 4.2.2.2.2, a front connecting rod of the first slider 4.2.2, a first slider is connected to a front surface of the first base 4.2.2.2.2, a slider is connected to a front surface of the first sliding rail 4.2, a slider 4.2, the first slide rail 4.2.6 is slidably connected to the first slide block 4.2.4, the side surface of the first slide block 4.2.4 is connected to the first push rod 4.2.5, the top surface of the first base 4.2.2 is connected to the bottom surface of the first connecting plate 4.2.7, and the first felting needle 4.2.8 is connected to the first connecting plate 4.2.7. The bottom surface of the frame body 4.1 is connected with a rotary disc 4.2.9, a first magnet block 4.2.10, a first spring 4.2.1, a first iron block 4.2.11, a first base 4.2.2, a first connecting plate 4.2.7 and a first felting needle 4.2.8 from bottom to top in sequence. The operational principle of the felting device 4.2 of the ball of the present embodiment is as follows: the first push rod 4.2.5 is pushed upwards, the first push rod 4.2.5 can drive the first sliding block 4.2.4 to slide upwards on the first slide rail 4.2.6, the first connecting rod 4.2.3 connected with the first sliding block 4.2.4, the first base 4.2.2 connected with the first connecting rod 4.2.3, the first connecting plate 4.2.7 connected with the upper surface of the first base 4.2.2 and the first felting needle 4.2.8 connected with the first connecting plate 4.2.7 can move upwards, the first iron block 4.2.11 connected with the lower surface of the first base 4.2.2 is separated from the attraction of the magnetic force of the first magnet block 4.2.10 to move upwards, the first spring 4.2.1 is stretched, and the first felting needle 4.2.8 pierces the hand table 2 above and pierces the wool ball in the hemispherical groove 2.1; the first push rod 4.2.5 is pushed downwards, the first push rod 4.2.5 drives the first slide block 4.2.4 to slide downwards on the first slide rail 4.2.6, the first connecting rod 4.2.3 connected with the first slide block 4.2.4, the first base 4.2.2 connected with the first connecting rod 4.2.3, the first connecting plate 4.2.7 connected with the upper surface of the first base 4.2.2 and the first felting needle 4.2.8 connected with the first connecting plate 4.2.7 move downwards, the first iron block 4.2.11 connected with the lower surface of the first base 4.2.2 moves downwards, the first spring 4.2.1 rebounds to recover to the original state and is compressed again until the first iron block 4.2.11 is attracted by the magnetic force of the first magnet block 4.2.10 and the first iron block 4.2.11 and the first magnet block 4.2.10 and the first spring 4.2.1 and the first magnet block 4.2.10 compress the first spring 4.2.1 and drive the first felting needle to be pulled into the shortest wool ball group and to be pulled out of the wool group; when the first iron block 4.2.11 and the first magnet block 4.2.10 compress the first spring 4.2.1 to the minimum, the rotary disc 4.2.9 is rotated, the rotary disc 4.2.9 drives the first magnet block 4.2.10, the first spring 4.2.1 connected to the first magnet block 4.2.10, the first iron block 4.2.11 connected to the first spring 4.2.1, the first base 4.2.2 connected to the first iron block 4.2.11, and the first connecting plate 4.2.7 connected to the first base 4.2.2 to rotate, and the first connecting plate 4.2.7 drives the first felting needle 4.2.8 connected to the first connecting plate 4.2.7 to rotate. After the first magnet block 4.2.10 and the first iron block 4.2.11 attract each other, the first spring 4.2.1 is compressed to the shortest distance, so that the distance from the rotary table 4.2.9 to the first base 4.2.2 is shortened, the action distance of the rotary table 4.2.9 driving the first base 4.2.2 to rotate is shorter, and the rotary table 4.2.9 driving the first base 4.2.2 to rotate is more stable. Like this through the first push rod 4.2.5 of repeated upwards, the promotion downwards, let the first felting needle 4.2.8 repeated pierce, pull out the wool ball in the hemisphere recess 2.1 to make the wool ball in the hemisphere recess 2.1 tentatively shape. By rotating the turntable 4.2.9, the relative position of the first felting needle 4.2.8 and the hemisphere groove 2.1 is changed, so that the area of the wool ball in the hemisphere groove 2.1 which can be pricked by the first felting needle 4.2.8 is larger, and the felting area of the wool ball in the hemisphere groove 2.1 is increased. The edge of the rotary disk 4.2.9 is connected with a pulling wire 4.2.12. At least 2 stay wires 4.2.12 are provided. This is arranged to rotate the turntable 4.2.9 by pulling on the pull wire 4.2.12. The first spring 4.2.1 is made of polyurethane. The arrangement of the first magnet piece 4.2.10 does not affect the function of the first spring 4.2.1. The cross section of the frame body 4.1 is U-shaped. The first connecting plate 4.2.7 is in the shape of a cross, and the cross-shaped intersection is located right below the center of the hemisphere groove 2.1. At least 8 first felting needles 4.2.8 are provided. The first felted needles 4.2.8 are arranged radially around the cruciform intersection on the first web 4.2.7. The first felted needle 4.2.8 is not arranged at the cross-shaped intersection. Because the center of the hemispherical recess 2.1 will insert the long needle 1.3. The first felted needles 4.2.8 are longer the further away from the cross-shaped intersection. The wool balls in the hemispherical grooves 2.1 are pricked by the plurality of needles, so that the felting speed of the wool balls in the hemispherical grooves 2.1 can be increased. The farther the bottom of the hemisphere groove 2.1 is from the center of the hemisphere groove 2.1, the longer the distance to the first connection plate 4.2.7. Thus, each first felted needle 4.2.8 can penetrate into the wool ball in the hemispherical groove 2.1. The first push rod 4.2.5 extends out of the frame 4.1. This facilitates the pushing of the first push rod 4.2.5.

The felting device 4.3 of the cylinder comprises a third slide rail 4.3.9, a third slide block 4.3.10, a third push rod 4.3.11, a second magnet block 4.3.12, a second spring 4.3.1, a second iron block 4.3.13, a second base 4.3.2, a second connecting rod 4.3.3, a second slide block 4.3.4, a second push rod 4.3.5, a second slide rail 4.3.6, a second connecting plate 4.3.7 and a second felting needle 4.3.8, the bottom surface of the frame 4.1 is connected with the third slide rail 4.3.9, the third slide rail 4.3.9 is connected with a third slide block 4.3.10 in a sliding manner, the side surface of the third slide block 4.3.10 is connected with the third push rod 4.3.11, the front surface of the third slide block 4.3.10 is connected with the bottom surface of the second block 4.3.12, the top surface of the second magnet block 4.3.12 is connected with the bottom end of the second spring 4.3.1, the top end of the second spring 4.3.1 is connected with the bottom surface of the second iron block 4.3.13, the top surface of the second slide block 4.3.13 is connected with the top surface of the second slide block 362.3.3, and the second slide block 363.3.3.3 is connected with the side surface of the second base 364.3.3.3.3, and the second slide block 364.3.3.3 is connected with the second slide block 362, the second connecting rod 4.3.3 is a telescopic rod, the inner side surface of the frame body 4.1 is connected with a second slide rail 4.3.6, the second slide rail 4.3.6 is connected with a second slide block 4.3.4 in a sliding manner, the side surface of the second slide block 4.3.4 is connected with a second push rod 4.3.5, the top surface of the second base 4.3.2 is connected with the bottom surface of a second connecting plate 4.3.7, and the second connecting plate 4.3.7 is connected with a second felting needle 4.3.8. The bottom surface of the frame body 4.1 is connected with a third slide rail 4.3.9, a third slide block 4.3.10, a second magnet block 4.3.12, a second spring 4.3.1, a second iron block 4.3.13, a second base 4.3.2, a second connecting plate 4.3.7 and a second felting needle 4.3.8 from bottom to top in sequence. The working principle of the cylindrical felting device 4.3 of the present embodiment is as follows: the second push rod 4.3.5 is pushed upwards, the second push rod 4.3.5 drives the second slide block 4.3.4 to slide upwards on the second slide rail 4.3.6, the second connecting rod 4.3.3 connected with the second slide block 4.3.4, the second base 4.3.2 connected with the second connecting rod 4.3.3, the second connecting plate 4.3.7 connected with the upper surface of the second base 4.3.2 and the second felting needle 4.3.8 connected with the second connecting plate 4.3.7 can move upwards, the second iron block 4.3.13 connected with the lower surface of the second base 4.3.2 can be separated from the attraction of the magnetic force of the second magnet block 4.3.12 to move upwards, the second spring 4.3.1 is stretched, and the second felting needle 4.3.8 pierces the hand table 2 above and pierces the cylindrical square mesh sheet 3 on the semi-cylindrical groove to form a wool ball; the second push rod 4.3.5 is pushed downwards, the second push rod 4.3.5 can drive the second slide block 4.3.4 to slide downwards on the second slide rail 4.3.6, the second connecting rod 4.3.3 connected with the second slide block 4.3.4, the second base 4.3.2 connected with the second connecting rod 4.3.3, the second connecting plate 4.3.7 connected with the upper surface of the second base 4.3.2 and the second felting needle 4.3.8 connected with the second connecting plate 4.3.7 can move downwards, the second iron block 4.3.13 connected with the lower surface of the second base 4.3.2 can move downwards, the second spring 4.3.1 rebounds to restore to the original state and is compressed again until the second iron block 4.3.13 is attracted by the magnetic force of the second iron block 4.3.12 and the second iron block 4.3.13 and the second magnet block 4.3.12 compress the second spring 4.3.1 to the shortest, and drive the semi-cylindrical grooves to be connected into a second felting magnet briquette which is inserted into the cylindrical square mesh 3 on the semi-cylindrical grooves to pull out the second felting needle briquette 4.3.8 and separate from the hand-pulled out table; when the second iron block 4.3.13 and the second magnet block 4.3.12 compress the second spring 4.3.1 to the shortest, the third push rod 4.3.11 is pushed, the third push rod 4.3.11 drives the third slider 4.3.10 to slide on the third slide rail 4.3.9, the second magnet block 4.3.12 connected with the third slider 4.3.10, the second spring 4.3.1 connected with the second magnet block 4.3.12, the second iron block 4.3.13 connected with the second spring 4.3.1, and the second base 4.3.2 connected with the second iron block 4.3.13 all move along with the sliding direction of the third slider 4.3.10, the second connecting rod 4.3.3 connected with the second base 4.3.2 extends, the second connecting plate 4.3.7 connected with the second base 4.3.2, and the second felting needle 4.3.8 connected with the second connecting plate 4.3.7 all move along with the extending direction of the second connecting rod 4.3.3. The attraction of the second magnet 4.3.12 and the second iron 4.3.13 minimizes the compression of the second spring 4.3.1, which stabilizes the movement of the second felted needle 4.3.8. Therefore, the second push rod 4.3.5 is repeatedly pushed upwards and downwards by one hand, so that the second felting needle 4.3.8 repeatedly penetrates into and pulls out the wool ball in the cylindrical square net piece 3 connected on the semi-cylindrical groove 2.2, and the rotating rod 1.1 is rotated by the other hand, so that the wool ball in the cylindrical square net piece 3 is preliminarily shaped. By pushing the third push rod 4.3.11, the relative position between the second felting needle 4.3.8 and the semi-cylinder groove 2.2 is changed, so that the area of the wool ball in the cylindrical square net piece 3 connected by the second felting needle 4.3.8 which can prick the semi-cylinder groove 2.2 is larger, thereby increasing the felting area of the wool ball in the cylindrical square net piece 3. The third push rod 4.3.11 extends out of the frame 4.1. This facilitates pushing the third push rod 4.3.11. The second spring 4.3.1 is made of polyurethane. This arrangement of the second magnet block 4.3.12 does not affect the function of the second spring 4.3.1. The cross section of the frame body 4.1 is U-shaped. The second web 4.3.7 is rectangular in shape. The second web 4.3.7 is located directly below the axis of the semi-cylindrical recess 2.2. The second felted needle 4.3.8 has at least 5 needles. The second felted needles 4.3.8 are arranged in a single row. The second felted needles 4.3.8 are of equal length. The arrangement can accelerate the felting speed of wool balls in the square net piece 3 connected into a cylindrical shape on the semi-cylindrical grooves 2.2 by rotating the rotating rod 1.1. The second push rod 4.3.5 extends out of the frame 4.1. This facilitates the pushing of the second push rod 4.3.5.

In summary, the present invention is only a specific embodiment, but not limited to the embodiment, and various technical features may be recombined to realize more implementations, and equivalent modifications and additions made by the present application without departing from the spirit of the present invention are considered to be within the technical scope of the present invention.

Claims (1)

1. The auxiliary equipment for manufacturing the wool felt artwork comprises a rotary screen and a hand table, wherein the rotary screen comprises a rotary rod, a screen and a long needle, the screen is hemispheroid, one end of the rotary rod is connected with the center of a convex surface of the screen, the end part of the long needle is connected with the center of a concave surface of the screen, a hemispheroid groove is formed in the hand table, the screen and the hemispheroid groove can be combined into a sphere, a semi-cylinder groove is formed in the hand table, one side of the semi-cylinder groove is flush with the side wall of the hand table, the short edge of a square net sheet is connected with a hinged ring, the rotary screen can be connected with the square net sheet through the hinged ring, the long edge of the square net sheet is connected with a hinged ring, the square net sheet can be connected into a cylinder through the hinged ring, and;

the length of the long needle is more than 2 times of the axial length of the mesh enclosure and is less than the sum of the axial length of the mesh enclosure and the thickness of the workbench;

the hinged ring is an open ring;

two axially-through grids are arranged on the mesh enclosure and are opposite to each other;

a grid which is through in the length direction is arranged on the square net piece;

the bottom of the hand table is connected with a felting device, the felting device comprises a frame body, a spherical felting device and a cylindrical felting device, the bottom of the hand table is connected with the frame body, the spherical felting device is positioned in the frame body, the bottom surface of the frame body is connected with the spherical felting device, the spherical felting device is positioned right below the semi-spherical groove, the cylindrical felting device is positioned in the frame body, the bottom surface of the frame body is connected with the cylindrical felting device, and the cylindrical felting device is positioned right below the semi-cylindrical groove;

the felting device of the ball body comprises a rotary disc, a first magnet block, a first spring, a first iron block, a first base, a first connecting rod, a first sliding block, a first push rod, a first slide rail, a first connecting plate and a first felting needle, wherein the bottom surface of a frame body is connected with the bottom of the rotary disc, the upper surface of the rotary disc is connected with the bottom surface of the first magnet block, the top surface of the first magnet block is connected with the bottom end of the first spring, the top end of the first spring is connected with the bottom surface of the first iron block, the top surface of the first iron block is connected with the bottom surface of the first base, the side surface of the first base is connected with the front surface of the first sliding block through the first connecting rod, the first connecting rod is respectively connected with the first base and the first sliding block, the first base can rotate in the first connecting rod, the inner side surface of the frame body is connected with the first slide rail, the first slide rail is connected with the first sliding block, the side surface of the first push rod is connected with, the first connecting plate is connected with a first felting needle;

the first push rod is pushed upwards, the first slide block can be driven by the first push rod to slide upwards on the first slide rail, the first connecting rod connected with the first slide block, the first base connected with the first connecting rod, the first connecting plate connected with the upper surface of the first base and the first felting needle connected with the first connecting plate can move upwards, the first iron block connected with the lower surface of the first base is separated from the attraction of the magnetic force of the first magnet block to move upwards, the first spring is stretched, and the first felting needle pierces through the hand table above and pierces into a wool ball in the groove of the hemisphere; the first push rod is pushed downwards, the first push rod can drive the first sliding block to slide downwards on the first sliding rail, the first connecting rod connected with the first sliding block, the first base connected with the first connecting rod, the first connecting plate connected with the upper surface of the first base and the first felting needle connected with the first connecting plate can move downwards, the first iron block connected with the lower surface of the first base can move downwards, the first spring rebounds and recovers the original state and is compressed again until the first iron block is attracted by the magnetic force of the first magnet block and the first iron block and the first magnet block compress the first spring to the shortest, and the first felting needle penetrating into the wool ball in the hemispherical groove is driven to pull out the wool ball and pull out the wool ball from the hand-held table; when the first spring is compressed to the shortest by the first iron block and the first magnet block, the turntable is rotated, the turntable can drive the first magnet block, the first spring connected with the first magnet block, the first iron block connected with the first spring, the first base connected with the first iron block and the first connecting plate connected to the first base to rotate, and the first connecting plate drives the first felting needle connected to the first connecting plate to rotate; the first magnet block and the first iron block are attracted and then compress the first spring to the shortest distance, so that the distance between the turntable and the first base is shortened, the acting distance for driving the first base to rotate by the turntable is shorter, and the turntable drives the first base to rotate more stably; thus, the first push rod is repeatedly pushed upwards and downwards to enable the first felting needle to repeatedly penetrate into and pull out the wool ball in the hemispherical groove, so that the wool ball in the hemispherical groove is preliminarily shaped; by rotating the turntable, the relative position of the first felting needle and the hemispherical groove is changed, so that the area of a wool ball in the hemispherical groove, which can be stabbed by the first felting needle, is larger, and the felting area of the wool ball in the hemispherical groove is increased; the edge of the turntable is connected with a pull wire; at least 2 stay wires are arranged; the first spring is made of polyurethane; the cross section of the frame body is U-shaped; the first connecting plate is in a cross shape, the cross-shaped intersection is positioned right below the center of the hemispherical groove, at least 8 first felting needles are arranged on the first connecting plate in a radial mode around the cross-shaped intersection, and the cross-shaped intersection is not provided with the first felting needles; the long needle is inserted into the center of the hemispherical groove, the first felting needle which is farther from the cross-shaped intersection is longer, so that a plurality of needles are arranged to stab wool balls in the hemispherical groove together, the felting speed of the wool balls in the hemispherical groove is increased, the distance from the position, which is farther from the center of the hemispherical groove, of the bottom of the hemispherical groove to the first connecting plate is longer, and each first felting needle can be penetrated into the wool balls in the hemispherical groove; the first push rod extends out of the frame body;

the felting device of the cylinder comprises a third slide rail, a third slide block, a third push rod, a second magnet block, a second spring, a second iron block, a second base, a second connecting rod, a second slide block, a second push rod, a second slide rail, a second connecting plate and a second felting needle, wherein the bottom surface of the frame body is connected with the third slide rail which is connected with the third slide block in a sliding way, the side surface of the third slide block is connected with the third push rod, the front surface of the third slide block is connected with the bottom surface of the second magnet block, the top surface of the second magnet block is connected with the bottom end of the second spring, the top end of the second spring is connected with the bottom surface of the second iron block, the top surface of the second iron block is connected with the bottom surface of the second base, the side surface of the second base is connected with the front surface of the second slide block through the second connecting rod, the two ends of the second connecting rod are respectively connected with the side surface of the second base, the inner side surface of the frame body is connected with a second sliding rail, the second sliding rail is connected with a second sliding block in a sliding manner, the side surface of the second sliding block is connected with a second push rod, the top surface of the second base is connected with the bottom surface of a second connecting plate, and a second felting needle is connected onto the second connecting plate; the bottom surface of the frame body is sequentially connected with a third slide rail, a third slide block, a second magnet block, a second spring, a second iron block, a second base, a second connecting plate and a second felting needle from bottom to top;

by pushing the second push rod upwards, the second push rod can drive the second slide block to slide upwards on the second slide rail, the second connecting rod connected with the second slide block, the second base connected with the second connecting rod, the second connecting plate connected with the upper surface of the second base and the second felting needle connected with the second connecting plate can move upwards, the second iron block connected with the lower surface of the second base can be separated from the attraction of the magnetic force of the second magnet block to move upwards, the second spring is stretched, and the second felting needle pierces through the upper hand table and pierces into a wool ball in the cylindrical square net sheet connected with the semi-cylindrical groove; a second push rod is pushed downwards, the second push rod can drive a second sliding block to slide downwards on a second sliding rail, a second connecting rod connected with the second sliding block, a second base connected with the second connecting rod, a second connecting plate connected with the upper surface of the second base and a second felting needle connected with the second connecting plate can move downwards, a second iron block connected with the lower surface of the second base can move downwards, a second spring rebounds and recovers the original state and is compressed again until the second iron block is attracted by the magnetic force of a second magnet block and the second iron block and the second magnet block compress the second spring to the shortest, and the second felting needle penetrating into the wool ball in the cylindrical square net piece on the semi-cylindrical groove is driven to pull out the wool ball and pull out the wool ball from a hand table; when the second spring is compressed to the shortest by the second iron block and the second magnet block, the third push rod is pushed, the third slide block can be driven by the third push rod to slide on the third slide rail, the second magnet block connected with the third slide block, the second spring connected with the second magnet block, the second iron block connected with the second spring and the second base connected with the second iron block move along with the sliding direction of the third slide block, the second connecting rod connected with the second base extends out, and the second connecting plate connected with the second base and the second felting needle connected with the second connecting plate move along with the extending direction of the second connecting rod; the second magnet block and the second iron block are attracted with each other and then the second spring is compressed to the shortest length, so that the second felted needle moves more stably, the second push rod is repeatedly pushed upwards and downwards by one hand, the second felted needle repeatedly penetrates into and pulls out the wool ball in the cylindrical square net sheet connected on the semi-cylindrical groove, the rotating rod is rotated by the other hand, so that the wool ball in the cylindrical square net sheet is preliminarily shaped, the relative position of the second felted needle and the semi-cylindrical groove is changed by pushing the third push rod, the area of the wool ball in the cylindrical square net sheet connected on the semi-cylindrical groove which can be penetrated by the second felted needle is larger, the felted area of the wool ball in the cylindrical square net sheet is increased, the three push rods extend out of the frame body, so that the third push rod is conveniently pushed, and the second spring is made of polyurethane, set up the function that the second magnet piece can not influence the second spring like this, the U-shaped is personally submitted in the transversal of framework, the second connecting plate is the rectangle, the second connecting plate is located the axle of semi-cylinder recess under, the second felting needle has 5 at least, the second felting needle is the single-row and arranges, the length of second felting needle equals, sets up like this and accelerates the felting speed that connects into the wool ball in the cylindric square mesh on the semi-cylinder recess through rotating the bull stick, the framework is stretched out to the second push rod, conveniently promotes the second push rod like this.

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