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CN-121987051-A - Dynamic Christmas tree

CN121987051ACN 121987051 ACN121987051 ACN 121987051ACN-121987051-A

Abstract

The invention discloses a dynamic Christmas tree. The dynamic Christmas tree comprises a main rod and an actuating component. The main rod comprises a first pipe body and a second pipe body. One end of the first pipe body is provided with a stop piece. The second tube is detachably connected to the first tube with an assembly axis. The actuating assembly includes a rotor and a motor. The rotor is connected to the second pipe body. The rotor is configured to perform a rotational motion when actuated. The rotor has a connection surface and an actuating surface, the stop member extends toward the actuating surface, and the actuating surface has an actuating portion. The motor is connected to the connection surface and is adapted to actuate the rotor in response to a drive signal. When the actuating part abuts against the stop piece, the first pipe body moves relative to the second pipe body along the assembly axis.

Inventors

  • SHAO SHUFA

Assignees

  • 邵树发

Dates

Publication Date
20260508
Application Date
20260326

Claims (13)

  1. 1. A dynamic christmas tree, comprising: A boom, comprising: a first pipe body having a stopper at one end thereof, and A second tube detachably connected to the first tube with an assembly axis, and An actuation assembly comprising: A rotor connected to the second tube for rotation when actuated, the rotor having a connection surface and an actuating surface, the stopper extending toward the actuating surface, the actuating surface having an actuating portion, and A motor connected to the connection surface and used for actuating the rotor according to a driving signal; When the actuating part abuts against the stop piece, the first pipe body moves relative to the second pipe body along the assembly axis.
  2. 2. The dynamic christmas tree of claim 1, wherein the actuation assembly further comprises: A bearing member supporting the rotor, and And one side of the bearing fixing block is connected with the bearing piece, the other side of the bearing fixing block is connected with the motor, and the motor passes through the bearing fixing block and the bearing piece to be connected to the connecting surface.
  3. 3. The dynamic christmas tree of claim 2, further comprising a controller for generating the driving signal.
  4. 4. The dynamic christmas tree of claim 3, wherein the actuating assembly further comprises a sleeve having a first assembly portion and a second assembly portion with a receiving cavity therebetween, a limit opening is provided around the first assembly portion, the limit opening is connected to the receiving cavity, the first tube is connected to the first assembly portion, the second assembly portion is connected to the bearing fixing block, the sleeve surrounds the rotor, the motor is connected to the second tube, the actuating surface faces the limit opening, and the stop member extends into the limit opening to extend toward the actuating surface.
  5. 5. The dynamic Christmas tree of claim 3 wherein said actuating assembly further comprises a connecting bracket, one side of said connecting bracket is connected to the outer side of said second tube, and the other side of said connecting bracket is connected to said motor, wherein said stop member extends from the outer side of said first tube to said actuating surface.
  6. 6. The dynamic christmas tree of claim 5, further comprising a fixing block connected to the end of the first tube body having the stopper, the fixing block having an assembling rod extending into the second tube body.
  7. 7. The dynamic Christmas tree of claim 6 further comprising a flange connected to said second tube and positioned between said first tube and said second tube, and a ball bearing connected to said flange and positioned between said assembly bar and said second tube.
  8. 8. The dynamic christmas tree of claim 3, further comprising: a third pipe body, and The swinging assembly is provided with a swinging rod on one side and a connecting rod on the other side, the swinging rod is connected with the third pipe body, and the connecting rod is connected with the first pipe body; when the swinging rod is actuated, the swinging rod drives the third pipe body to swing relative to the first pipe body.
  9. 9. The dynamic christmas tree of claim 8, wherein the swing assembly further comprises: a shell, one side of which is provided with an opening, the other side of which is provided with the connecting rod, and a swinging cavity which is communicated with the opening is arranged inside the shell; one end of the swinging rod is movably connected to the swinging cavity, and the other end extends out of the opening; a swing motor connected to one end of the swing cavity and connected to the driving gear, and A fixed gear engaged with the driving gear; The swing motor is used for actuating the driving gear to rotate relative to the fixed gear according to the driving signal so as to actuate the swing rod.
  10. 10. The dynamic christmas tree of claim 8, wherein the swing assembly further comprises: a shell, one side of which is provided with an opening, the other side of which is provided with the connecting rod, and a swinging cavity which is communicated with the opening is arranged inside the shell; one end of the swinging rod is movably connected to the swinging cavity, and the other end extends out of the opening; An eccentric motor having an eccentric rod connected to the swing rod and located at one end of the swing chamber, and The eccentric motor is used for actuating the eccentric rod to eccentrically rotate according to the driving signal so as to drive the swinging rod.
  11. 11. The dynamic christmas tree of claim 8, wherein the swing assembly further comprises: the shell is provided with an opening on one side and the connecting rod on the other side, a swinging cavity communicated with the opening is formed in the shell, and two limiting blocks are respectively arranged on two opposite sides of the swinging cavity; One end of the swinging rod is movably connected to the swinging cavity, the other end extends out of the opening, the swinging rod is provided with a linkage part, and The driving motor is connected with the roller, the roller is rotationally connected to the shell and is positioned in the swinging cavity, the roller is provided with an assembly hole, and the swinging rod passes through the assembly hole; The driving motor is used for actuating the roller to rotate according to the driving signal so as to drive the swinging rod to swing, and the driving motor changes the rotating direction in response to the swinging rod abutting against one of the two limiting blocks.
  12. 12. The dynamic Christmas tree of claim 8 wherein said swing assembly further comprises a housing having an opening on one side and a connecting rod on the other side, a swing cavity in communication with said opening in said housing, said swing cavity having two first positioning points on opposite sides of said swing rod, said swing rod being located at one end of said swing cavity and having a second positioning point electrically connected to one of said two first positioning points when said swing rod is at a maximum swing angle.
  13. 13. The dynamic christmas tree of claim 3, further comprising a toppling sensor coupled to the controller for sending a warning signal when toppling of the main pole is sensed, wherein the controller stops sending the driving signal according to the warning signal.

Description

Dynamic Christmas tree Technical Field The present disclosure relates to a dynamic Christmas tree, and more particularly to a dynamic Christmas tree capable of controlling dynamic effects of the Christmas tree. Background In the world, there is a festival habit of placing the Christmas tree on the Christmas, and people can decorate the Christmas tree. At present, the decoration of the Christmas tree is to hang the decoration on the branch only or wind the lamp string on the branch. However, these decorations are all static visual effects, and currently, christmas trees cannot perform dynamic visual effects. Some people can rotate the bottom of the Christmas tree on the rotary table, however, the rotation effect is monotonous, the height of the Christmas tree reaches more than one meter, and if the Christmas tree rotates from the bottom of the Christmas tree, the Christmas tree is easy to topple. Disclosure of Invention In view of this, the present invention discloses a dynamic Christmas tree. The dynamic Christmas tree comprises a main rod and an actuating component. The main rod comprises a first pipe body and a second pipe body. One end of the first pipe body is provided with a stop piece. The second tube is detachably connected to the first tube with an assembly axis. The actuating assembly includes a rotor and a motor. The rotor is connected to the second pipe body. The rotor is configured to perform a rotational motion when actuated. The rotor has a connection surface and an actuating surface, the stop member extends toward the actuating surface, and the actuating surface has an actuating portion. The motor is connected to the connection surface and is adapted to actuate the rotor in response to a drive signal. When the actuating part abuts against the stop piece, the first pipe body moves relative to the second pipe body along the assembly axis. In some embodiments, the actuation assembly further comprises a bearing member and a bearing retainer block. The bearing piece supports the rotor, one side of the bearing fixing block is connected with the bearing piece, and the other side of the bearing fixing block is connected with the motor. The motor passes through the bearing fixing block and the bearing piece to be connected to the connecting surface. In some embodiments, the dynamic Christmas tree further comprises a controller, wherein the controller is used for generating a driving signal, motor overload protection or motor restarting action. In some embodiments, the actuation assembly further comprises a cannula. The two ends of the sleeve are respectively provided with a first assembling part and a second assembling part, and a containing cavity is arranged between the first assembling part and the second assembling part. The first assembly part is provided with a limiting opening around, and the limiting opening is communicated to the accommodating cavity. The first pipe body is connected in the first equipment portion, and the second equipment portion is connected in the bearing fixed block, and the sleeve pipe encircles the rotor. The motor is connected to the second tube. The actuating surface faces the limit opening, and the stop member extends into the limit opening to extend toward the actuating surface. In some embodiments, the actuating assembly further comprises a connecting bracket, one side of the connecting bracket is connected to the outer side surface of the second tube body, and the other side of the connecting bracket is connected to the motor. The stop member extends to the actuating surface on the outer side surface of the first pipe body. In some embodiments, the dynamic Christmas tree further comprises a fixed block connected to the end of the first pipe body provided with the stop member, the fixed block is provided with an assembling rod, and the assembling rod extends into the second pipe body. In some embodiments, the dynamic Christmas tree further comprises a flange and a ball bearing, wherein the flange is connected with the second pipe body and is positioned between the first pipe body and the second pipe body. The ball bearing is connected with the flange plate and is positioned between the assembly rod and the second pipe body. In some embodiments, the dynamic Christmas tree further comprises a third pipe body and a swinging component. One side of the swinging component is provided with a swinging rod, the other side of the swinging component is provided with a connecting rod, the swinging rod is connected with the third pipe body, and the connecting rod is connected with the first pipe body. When the swinging rod is actuated, the swinging rod drives the third pipe body to swing relative to the first pipe body. In some embodiments, the swing assembly further comprises a housing, a swing rod, a swing motor, and a fixed gear. One side of the shell is provided with an opening, the other side is provided with a connecting rod. The inside of the shell is provided with a swi