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Plush Animal Toys Touch And Visual Effects Are Both Real
Aug 16, 2017

There are two kinds of Plush Animal Toys, one is a soft plush toy, its shape exaggerated, soft to the touch, but the vividness is poor; the other is a hard plush toy, which uses hard tire, and then on its surface Paste the plush, in order to produce more realistic toy animals, the designers on the one hand in the toy's senses to improve, make it more realistic, but the use of rigid plush Plush Animal Toys have a common drawback is the weight Problem, so inconvenient to carry. How to make Plush Animal Toys both the advantages of soft Plush Animal Toys, but also has the advantages of hardware Plush Animal Toys, has become an urgent need to solve technical problems.

The Plush Animal Toys of the software is poor and the hardware Plush Animal Toys inconvenience to carry the problem. In order to solve the above technical problem, there is provided a highly simulated plush toy animal comprising an emulated animal fur layer and a profiled support structure for forming an inner cavity located on the inside of the simulated fur layer, wherein the profile support structure comprises And a rigid tire body forming at least a profiling portion of the back or abdomen of the animal, the duraper forming a profiled portion comprising at least the animal head and other body parts of the limbs The The high-simulation plush toy animal according to the utility model is characterized in that the software tire forms a contoured portion of the muscle and soft tissue of the animal's back and leg, or a contoured portion of the muscle and soft tissue of the abdomen and the leg; The duraper body forms a profiled portion of a body skeletal structure other than the body of the back or the abdomen, which is fastened together with the hard tire and joined together by a respective contact surface. Further comprising a high-simulation plush toy animal, wherein the contact surface of the software tire and the hardware tire is the end face of the interface at which it is engaged. Wherein the outer surface of the inner surface of the green tire is different from the outer surface of the inner surface of the soft tire, and the outer surface of the inner surface of the soft tire is in contact with the outer surface of the soft tire, The contact surface of the upper surface of the hard tire is bonded. Further comprising a highly simulated plush toy animal,Plush Animal Toys wherein the contact surface of the hardware tire is located on an outer surface of its interface. Further comprising a high-simulation plush toy animal, wherein the contact surface of the hardware tire and the green tire is inclined or curved. Further comprising a highly simulated plush toy animal, wherein the limbs of the hardware tire are provided with a movable joint structure. Further comprising a high-simulation plush toy animal, wherein the limbs of the hardware plies are composed of at least two limbs, the limbs being joined by an elastic material, a hinged structure or the hard Wherein the prosthetic support structure is provided with a simulated breathing apparatus, wherein the simulated body of the prosthetic body is provided with a simulated breathing apparatus, Wherein the simulated dermoid is provided with a motor-driven interlocking member, wherein the soft body of the profiling support structure is provided with an opening or a recessed portion, and the simulated fur layer is provided with a movable part covering the flexible tire And the coupling member acts on the pseudo-part directly or through the connecting piece, driven by the motor. Further comprising a high-simulation plush toy animal, wherein an inner surface of said software tire is formed with a pleated structure around said opening. Further comprising a high-simulation plush toy animal, wherein the pleated structure is a plurality of pits provided on an inner surface around an opening of the soft tire. Further comprising a highly simulated plush toy animal,Plush Animal Toys wherein the linkage is a resiliently resilient member having one end connected to the crank, the crank being connected to the output shaft of the motor. Further comprising a highly simulated plush toy animal, wherein the linkage is a resiliently bendable plastic sheet. Further comprising a highly simulated plush toy animal, wherein the linkage is a flexible spring steel having elasticity. Further comprising a high-simulation plush toy animal in which the connecting piece is fixed to the fidelity portion, and the connecting piece is provided with a gap through which the engaging member passes through the slit Part is divided into two parts, and the two parts are fixed in the opposite direction to the connecting piece. Further comprising a high-simulation plush toy animal, wherein the simulated breathing apparatus comprises a motor including a rotary output shaft; a battery case connected to the motor through a wire; a gearbox having one end connected to a rotary output shaft of the motor, The other end has an output shaft, the output shaft is connected with a crank; one end of the linkage is connected with the crank. Further comprising a highly simulated plush toy animal, wherein the software tire is a foamed polyurethane elastomer. Further comprising a highly simulated plush toy animal, wherein the simulated animal fur layer is a plush and / or plush fabric. Compared with the prior art, it is a high-simulation plush toy animal having a touch-visual and visual effect more closely related to a real animal. The utility model has a simple structure, both highly realistic and portable, and at the same time Also has a simulated respiratory function, can produce a very realistic simulation of respiratory effects.





New Progress Material Solution Co.,Ltd