CN109099284B - Multifunctional television stand with face orientation controlled by radar - Google Patents

Abstract

The invention relates to a television frame, in particular to a multifunctional radar controlled face orientation television frame, which can detect the position of a person through a radar, adjust the orientation of a television, adjust the height of the television and enable the person to be more comfortable to watch. The middle part of the television plate is in threaded fit with the screw rod, and two sides of the television plate are in contact with the sliding rail; the upper part of the screw rod is contacted with the limiting plate, and the lower part of the screw rod is meshed with the lifting motor; the lifting motor is fixed inside the rotating frame through screws; the rotating mechanism is meshed with the rotating frame and is fixed inside the fixed frame; the base is fixed at the lower part of the fixing frame; the limiting plate is fixed at the upper part of the slide rail; the slide rail is fixed on the upper part of the rotating frame; the rotating frame is positioned at the upper part of the fixed frame; the radar motor is fixed on the lower part of the base.

Description

Multifunctional television stand with face orientation controlled by radar

Technical Field

The invention relates to a television frame, in particular to a multifunctional television frame with a face controlled by a radar.

Background

The television becomes a main entertainment house in our daily life, various television programs attract our eyes, however, the height and the direction of the traditional television stand are fixed, so that the program watching position is limited. The multifunctional radar is designed to control the human face to face the television stand.

Disclosure of Invention

The invention provides a multifunctional radar for controlling a human face to face a television frame, which has the beneficial effects that the position of a human can be detected through a radar, the orientation of a television can be adjusted, the height of the television can be adjusted, and the television can be more comfortable to watch.

In order to solve the technical problem, the invention relates to a television frame, in particular to a multifunctional radar-controlled face orientation television frame which comprises a television plate, a screw rod, a lifting motor, a rotating mechanism, a base, a limiting plate, a sliding rail, a rotating frame, a fixing frame and a radar motor.

The television plate consists of a sliding strip, a television fixing hole, a fixing plate and a threaded hole; the sliding strips are rectangular, two sliding strips are arranged, the sliding strips are welded on two sides of the fixed plate, and the sliding strips are in contact with the sliding rails; four television fixing holes are arranged, the television fixing holes are threaded through holes, and the television fixing holes are positioned on the fixing plate; the fixing plate is rectangular, and a threaded hole is formed in the middle of the fixing plate; threads are processed in the threaded holes, and the threaded holes are in threaded fit with the screw rods;

the screw rod consists of a threaded rod, a bearing and a horizontal bevel gear; the threaded rod is positioned at the upper part of the threaded rod, the upper part of the threaded rod is matched with the limiting plate, and the threaded rod is in threaded fit with the threaded hole; the bearing is positioned at the lower part of the screw rod, the bearing is positioned at the lower part of the sliding rail, and the bearing is positioned at the upper part of the rotating frame; the horizontal helical gear is welded at the lower part of the screw rod, and the right side of the horizontal helical gear is meshed with the motor helical gear;

the lifting motor consists of a motor helical gear, a motor shaft, a lifting motor and a motor base; the motor bevel gear is welded at the left end of the motor shaft, and the upper part of the motor bevel gear is meshed with the horizontal bevel gear; the right side of the motor shaft is connected with a lifting motor; the lifting motor is fixed on the upper side inside the rotating frame; the motor base is a cuboid, through holes are formed in the middle of the motor base, four motor bases are arranged, and the upper portion of each motor base is in contact with the inner wall of the upper side of the rotating frame;

the rotating mechanism consists of a Y-shaped frame, a planet wheel, a nut, a rotating motor shaft, a connecting shaft, a main gear and a rotating motor; the middle part of the Y-shaped frame penetrates through the upper part of the shaft of the rotating motor, and the Y-shaped frame and the connecting shaft are mutually fixed through a screw cap; the middle part of the planet wheel penetrates through the connecting shaft, the lower part of the planet wheel is contacted with the nut, and the planet wheel is meshed with the main gear; the nut is positioned at the upper part of the master gear, the nut is in threaded fit with the rotating motor, and the upper part of the nut is contacted with the Y-shaped frame; the upper part of the rotary motor shaft penetrates through the middle part of the Y-shaped frame, and the middle part of the rotary motor shaft is fixed with the main gear; the middle part of the connecting shaft penetrates through the planet wheel, the upper part of the connecting shaft penetrates through the Y-shaped frame, and two ends of the connecting shaft are in threaded fit with the screw caps; the main gear is fixed on a shaft of the rotating motor, a square pin groove is processed in the middle of the main gear, and the main gear is meshed with the planet gear; the rotating motor is fixed inside the fixing frame through screws;

the Y-shaped frame consists of a connecting shaft hole, a rotating shaft hole and a frame; the number of the connecting shaft holes is three, and the middle part of each connecting shaft hole penetrates through the connecting shaft; the rotating shaft hole is positioned in the middle of the Y-shaped frame; one end of the frame is provided with a connecting shaft hole;

the base comprises a base fixing hole, a fixing frame groove and a radar motor base; four base fixing holes are formed, and screws penetrate through the base fixing holes to be fixed with the fixing frame; the fixed frame groove is positioned at the upper part of the base, is a circular groove and is contacted with the fixed frame; the radar motor base is positioned at the middle lower part of the base and is fixed with the radar motor through screws;

the limiting plate consists of a limiting plate fixing screw, a spring, a pass grinding ring cover, a pass grinding ring and a baffle; the two limiting plate fixing screws are arranged at two ends of the limiting plate, and the lower parts of the limiting plate fixing screws are in threaded fit with the slide rails; the upper part of the spring is welded at the lower part of the limiting plate, and the lower part of the spring is welded with the baffle; the program grinding ring cover is in a ring shape, four threaded holes are processed on the program grinding ring cover, and the upper part of the program grinding ring cover is in contact with the program grinding ring; the outer part of the pass grinding ring is in interference fit with the limiting plate, and the middle part of the pass grinding ring is contacted with the screw; the baffle is square and is in contact with the slide rail;

the sliding rail consists of a limiting plate fixing hole, a sliding chute, a screw rod hole and a sliding rail fixing hole; the two limiting plate fixing holes are formed and are positioned at the upper part of the slide rail; the sliding groove is positioned inside the sliding rail, the sliding groove is in the vertical direction, and the sliding groove is in contact with the television board; the screw hole is positioned in the middle of the slide rail, a bearing groove is processed at the lower part of the screw hole, and the screw hole is contacted with the bearing; two sliding rail fixing holes are formed, and the sliding rail fixing holes penetrate through the inner hexagonal screws to be fixed with the rotating frame;

the rotating frame consists of a slide rail fixing threaded hole, a bearing seat, a lifting motor fixing hole, a toothed ring, a limiting screw hole and a ball groove; the slide rail fixing threaded holes are formed in the upper part of the rotating frame, and the number of the slide rail fixing threaded holes is two; the bearing block is positioned in the middle of the upper side of the rotating frame and is in contact with the bearing; four fixing holes of the lifting motor are arranged; the gear ring is positioned in the middle of the rotating frame and meshed with the planet gear; four limiting screw holes are formed, the limiting screw holes are in threaded fit with the inner hexagonal screws, and one ends of the inner hexagonal screws are in contact with the fixing frame; sixteen ball grooves are formed, and spherical balls are arranged in the ball grooves;

the fixing frame consists of a lower ball groove, a fixing hole of the fixing frame, a fixing seat of the rotating motor and an air hole; sixteen lower ball grooves are formed; four fixing holes of the fixing frame are arranged; the rotating motor fixing seat is positioned in the fixing frame, and four threaded holes are processed on the rotating motor fixing seat; the air holes are positioned at the lower part of the fixing frame, and four groups of two air holes are arranged in each group;

the radar motor consists of a fixed block, a motor, a shaft and a radar; the number of the fixed blocks is four, a through hole is formed in the middle of each fixed block, and the fixed blocks are welded to the upper portion of the motor; the motor is fixed at the lower part of the base through a screw; the lower part of the shaft is fixed with the radar through a pin;

the middle part of the television plate is in threaded fit with the screw rod, and two sides of the television plate are in contact with the sliding rail; the upper part of the screw rod is contacted with the limiting plate, and the lower part of the screw rod is meshed with the lifting motor; the lifting motor is fixed inside the rotating frame through screws; the rotating mechanism is meshed with the rotating frame and is fixed inside the fixed frame; the base is fixed at the lower part of the fixing frame; the limiting plate is fixed at the upper part of the slide rail; the slide rail is fixed on the upper part of the rotating frame; the rotating frame is positioned at the upper part of the fixed frame; the radar motor is fixed on the lower part of the base.

As a further optimization of the technical scheme, three planet wheels are arranged for controlling the face to face the television frame by the multifunctional radar.

As a further optimization of the technical scheme, the diameter of the rotating shaft hole of the multifunctional radar control face facing the television frame is larger than that of a rotating motor shaft.

As a further optimization of the technical scheme, the distance grinding ring for controlling the face to face the television frame by the multifunctional radar is made of alumina wear-resistant ceramic.

The multifunctional radar control face of the invention faces the television frame, and has the beneficial effects that:

the multifunctional radar controls the face to face the television frame, the position of a person can be detected through the radar, the orientation of a television can be adjusted, the height of the television can be adjusted, and the person can be more comfortable to watch.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a multifunctional radar-controlled face oriented to a television stand according to the present invention.

Fig. 2 is a schematic structural diagram of a television plate 1 for controlling a human face to face a television stand by a multifunctional radar.

Fig. 3 is a schematic structural diagram of the other side of the television plate 1 for controlling a human face to face a television stand by using a multifunctional radar.

Fig. 4 is a schematic structural view of a screw 2 for controlling a human face to face a television stand by using a multifunctional radar.

Fig. 5 is a schematic structural diagram of a lifting motor 3 for controlling a human face to face a television stand by using a multifunctional radar.

Fig. 6 is a schematic structural view of a rotating mechanism 4 for controlling a human face to face a television stand by a multifunctional radar according to the present invention.

Fig. 7 is a schematic structural view of the other side of the rotating mechanism 4 for controlling a human face to face a television stand by using a multifunctional radar.

FIG. 8 is a schematic structural view of a Y-shaped frame 4-1 for controlling a human face to face a television frame by a multifunctional radar.

Fig. 9 is a schematic structural diagram of a base 5 for controlling a human face to face a television stand by using a multifunctional radar according to the present invention.

Fig. 10 is a schematic structural diagram of a limiting plate 6 for controlling a human face to face a television stand by a multifunctional radar according to the present invention.

Fig. 11 is a schematic structural view of a slide rail 7 for controlling a human face to face a television stand by using a multifunctional radar according to the present invention.

Fig. 12 is a schematic structural view of a rotating frame 8 for controlling a human face to face a television frame by a multifunctional radar according to the present invention.

Fig. 13 is a schematic structural view of a fixing frame 9 for controlling a human face to face a television stand by using a multifunctional radar according to the present invention.

Fig. 14 is a schematic structural diagram of a radar motor 10 for controlling a human face to face a television rack by using a multifunctional radar according to the present invention.

In the figure: a television panel 1; a slide bar 1-1; 1-2 of television fixing holes; fixing plates 1-3; 1-4 of a threaded hole; a screw 2; 2-1 of a threaded rod; a bearing 2-2; 2-3 of a horizontal bevel gear; a lifting motor 3; 3-1 of a motor bevel gear; a motor shaft 3-2; 3-3 of a lifting motor; 3-4 of a motor base; a rotating mechanism 4; a Y-shaped frame 4-1; the connecting shaft hole 4-1-1; a rotating shaft hole 4-1-2; 4-3 of a frame; a planet wheel 4-2; 4-3 of a screw cap; rotating a motor shaft 4-4; 4-5 of a connecting shaft; main gear 4-6; 4-7 parts of a rotating motor; a base 5; a base fixing hole 5-1; 5-2 of a fixed frame groove; 5-3 of a radar motor base; a limiting plate 6; a limiting plate fixing screw 6-1; a spring 6-2; 6-3 of a process grinding ring cover; 6-4 of a pass grinding ring; 6-5 of a baffle plate; a slide rail 7; a limiting plate fixing hole 7-1; a chute 7-2; screw holes 7-3; 7-4 sliding rail fixing holes; a rotating frame 8; the slide rail fixing threaded hole 8-1; a bearing seat 8-2; a lifting motor fixing hole 8-3; 8-4 parts of a toothed ring; 8-5 of a limiting screw hole; 8-6 parts of ball grooves; a fixed frame 9; a lower ball groove 9-1; a fixing hole 9-2 of the fixing frame; a rotary motor fixing seat 9-3; 9-4 of air holes; a radar motor 10; 10-1 of a fixed block; a motor 10-2; shaft 10-3; radar 10-4.

Detailed Description

The first embodiment is as follows:

the present invention relates to a television stand, and more particularly, to a multifunctional radar-controlled face-oriented television stand, which includes a television plate 1, a screw 2, a lifting motor 3, a rotating mechanism 4, a base 5, a limiting plate 6, a sliding rail 7, a rotating stand 8, a fixing stand 9, and a radar motor 10, and can not only detect a position of a person by a radar, adjust an orientation of a television, but also adjust a height of the television, so that the user can feel more comfortable to watch the television.

The television plate 1 consists of a sliding strip 1-1, a television fixing hole 1-2, a fixing plate 1-3 and a threaded hole 1-4; the sliding strips 1-1 are rectangular, two sliding strips 1-1 are arranged, the sliding strips 1-1 are welded on two sides of the fixed plate 1-3, and the sliding strips 1-1 are in contact with the sliding rails 7; four television fixing holes 1-2 are arranged, the television fixing holes 1-2 are threaded through holes, and the television fixing holes 1-2 are positioned on the fixing plates 1-3; the fixing plate 1-3 is rectangular, and a threaded hole 1-4 is formed in the middle of the fixing plate 1-3; threads are processed inside the threaded holes 1-4, and the threaded holes 1-4 are in threaded fit with the screw rods 2; the television is fixed on the television plate 1 through screws;

the screw rod 2 consists of a threaded rod 2-1, a bearing 2-2 and a horizontal helical gear 2-3; the threaded rod 2-1 is positioned at the upper part of the threaded rod 2, the upper part of the threaded rod 2-1 is in threaded fit with the limiting plate 6, and the threaded rod 2-1 is in threaded fit with the threaded hole 1-4; the bearing 2-2 is positioned at the lower part of the screw rod 2, the bearing 2-2 is positioned at the lower part of the sliding rail 7, and the bearing 2-2 is positioned at the upper part of the rotating frame 8; the horizontal bevel gear 2-3 is welded at the lower part of the screw rod 2, and the right side of the horizontal bevel gear 2-3 is meshed with the motor bevel gear 3-1; the lifting motor 3 is connected into the circuit, and the lifting motor 3 is started. The lifting motor 3 rotates to drive the motor bevel gear 3-1 to rotate, the upper part of the motor bevel gear 3-1 is meshed with the horizontal bevel gear 2-3, the motor bevel gear 3-1 drives the horizontal bevel gear 2-3 to rotate, and the horizontal bevel gear 2-3 is fixed at the lower part of the screw rod 2, so that the horizontal bevel gear 2-3 drives the threaded rod 2-1 to rotate;

the lifting motor 3 consists of a motor bevel gear 3-1, a motor shaft 3-2, a lifting motor 3-3 and a motor base 3-4; the motor bevel gear 3-1 is welded at the left end of the motor shaft 3-2, and the upper part of the motor bevel gear 3-1 is meshed with the horizontal bevel gear 2-3; the right side of the motor shaft 3-2 is connected with a lifting motor 3-3; the lifting motor 3-3 is fixed on the upper side inside the rotating frame 8; the motor bases 3-4 are cuboid, through holes are formed in the middle of the motor bases 3-4, four motor bases 3-4 are arranged, and the upper portions of the motor bases 3-4 are in contact with the inner wall of the upper side of the rotating frame 8;

the rotating mechanism 4 consists of a Y-shaped frame 4-1, a planet wheel 4-2, a nut 4-3, a rotating motor shaft 4-4, a connecting shaft 4-5, a main gear 4-6 and a rotating motor 4-7; the middle part of the Y-shaped frame 4-1 penetrates through the upper part of the rotating motor shaft 4-4, and the Y-shaped frame 4-1 and the connecting shaft 4-5 are mutually fixed through a screw cap; the middle part of the planet wheel 4-2 penetrates through a connecting shaft 4-5, the lower part of the planet wheel 4-2 is contacted with a nut, and the planet wheel 4-2 is meshed with a main gear 4-6; the nut 4-3 is positioned at the upper part of the main gear 4-6, the nut 4-3 is in threaded fit with the rotating motor shaft 4-4, and the upper part of the nut 4-3 is in contact with the Y-shaped frame 4-1; the upper part of a rotating motor shaft 4-4 penetrates through the middle part of the Y-shaped frame 4-1, and the middle part of the rotating motor shaft 4-4 is fixed with a main gear 4-6; three connecting shafts 4-5 are arranged, the middle part of each connecting shaft 4-5 penetrates through the planet wheel 4-2, the upper part of each connecting shaft 4-5 penetrates through the Y-shaped frame 4-1, and two ends of each connecting shaft 4-5 are in threaded fit with nuts; the main gear 4-6 is fixed on a rotating motor shaft 4-4, a square pin slot is processed in the middle of the main gear 4-6, and the main gear 4-6 is meshed with the planet gear 4-2; the rotating motors 4-7 are fixed inside the fixing frame 9 through screws; the rotating motor 4-7 is connected into a circuit, the signal processing mechanism starts the rotating motor 4-7, the rotating motor 4-7 rotates to drive the main gear 4-6 to rotate, the main gear 4-6 is meshed with the planet wheel 4-2, and the planet wheel 4-2 rotates around the connecting shaft 4-5;

the Y-shaped frame 4-1 consists of a connecting shaft hole 4-1-1, a rotating shaft hole 4-1-2 and a frame 4-3; three connecting shaft holes 4-1-1 are arranged, and the middle part of each connecting shaft hole 4-1-1 penetrates through a connecting shaft 4-5; the rotating shaft hole 4-1-2 is positioned in the middle of the Y-shaped frame 4-1; one end of the frame 4-3 is provided with a connecting shaft hole 4-1-1;

the base 5 consists of a base fixing hole 5-1, a fixing frame groove 5-2 and a radar motor base 5-3; four base fixing holes 5-1 are arranged, and screws penetrate through the base fixing holes 5-1 to be fixed with the fixing frame 9; the fixed frame groove 5-2 is positioned at the upper part of the base 5, the fixed frame groove 5-2 is a circular groove, and the fixed frame groove 5-2 is contacted with the fixed frame 9; the radar motor base 5-3 is positioned at the middle lower part of the base 5, and the radar motor base 5-3 is fixed with the radar motor 10 through screws;

the limit plate 6 consists of a limit plate fixing screw 6-1, a spring 6-2, a pass grinding ring cover 6-3, a pass grinding ring 6-4 and a baffle 6-5; two limiting plate fixing screws 6-1 are arranged, the limiting plate fixing screws 6-1 are positioned at two ends of the limiting plate 6, and the lower parts of the limiting plate fixing screws 6-1 are in threaded fit with the sliding rails 7; two springs 6-2 are arranged, the upper parts of the springs 6-2 are welded at the lower parts of the limiting plates 6, and the lower parts of the springs 6-2 are welded with the baffle plates 6-5; the program grinding ring cover 6-3 is annular, four threaded holes are processed on the program grinding ring cover 6-3, and the upper part of the program grinding ring cover 6-3 is in contact with the program grinding ring 6-4; the pass grinding ring 6-4 is annular, the outer part of the pass grinding ring 6-4 is in interference fit with the limiting plate 6, and the middle part of the pass grinding ring 6-4 is in contact with the screw rod 2; the baffle 6-5 is square, and the baffle 6-5 is in contact with the slide rail 7; the lower part of the limiting plate 6 is provided with a spring 6-2, and when the television plate 1 rises to the upper part and contacts the baffle 6-5, the baffle 6-5 is driven to move upwards to compress the spring 6-2. The spring 6-2 plays a role of buffering the television board 1;

the slide rail 7 consists of a limiting plate fixing hole 7-1, a sliding chute 7-2, a screw rod hole 7-3 and a slide rail fixing hole 7-4; two limiting plate fixing holes 7-1 are arranged, and the limiting plate fixing holes 7-1 are positioned at the upper part of the slide rail 7; the sliding groove 7-2 is positioned inside the sliding rail 7, the sliding groove 7-2 is in the vertical direction, and the sliding groove 7-2 is in contact with the television plate 1; a screw hole 7-3 is positioned in the middle of the slide rail 7, a bearing groove is processed at the lower part of the screw hole 7-3, and the screw hole 7-3 is contacted with the bearing 2-2; two sliding rail fixing holes 7-4 are formed, and the sliding rail fixing holes 7-4 penetrate through the inner hexagonal screws to be fixed with the rotating frame 8; the threaded rod 2-1 is in threaded fit with the television board 1, two sides of the television board 1 are in contact with the sliding groove 7-2 of the sliding rail 7, and the sliding groove 7-2 limits the rotation of the television board 1, so that the television board 1 moves up and down along the sliding rail 7;

the rotating frame 8 consists of a sliding rail fixing threaded hole 8-1, a bearing seat 8-2, a lifting motor fixing hole 8-3, a toothed ring 8-4, a limiting screw hole 8-5 and a ball groove 8-6; the slide rail fixing threaded holes 8-1 are positioned at the upper part of the rotating frame 8, and two slide rail fixing threaded holes 8-1 are arranged; the bearing seat 8-2 is positioned in the middle of the upper side of the rotating frame 8, and the bearing seat 8-2 is in contact with the bearing 2-2; four lifting motor fixing holes 8-3 are arranged; the gear ring 8-4 is positioned in the middle of the rotating frame 8, and the gear ring 8-4 is meshed with the planet gear 4-2; four limiting screw holes 8-5 are arranged, the limiting screw holes 8-5 are in threaded fit with the inner hexagonal screw, and one end of the inner hexagonal screw is in contact with the fixing frame 9; sixteen ball grooves 8-6 are arranged, and spherical balls are arranged in the ball grooves 8-6; the planet wheel 4-2 is meshed with a gear ring 8-4 in the rotating frame 8, the planet wheel 4-2 drives the gear ring 8-4 to rotate, and the gear ring 8-4 is fixed on the rotating frame 8, so that the rotating frame 8 rotates; the TV set is fixed on TV board 1, and TV board 1 contacts with slide rail 7, and slide rail 7 is fixed on swivel mount 8, so the TV set is rotatory in the drive of swivel mount 8. When the rotating motor rotates to a proper position, the radar 10-4 controls the rotating motor 4-7 to stop rotating;

the fixing frame 9 consists of a lower ball groove 9-1, a fixing frame fixing hole 9-2, a rotating motor fixing seat 9-3 and an air hole 9-4; sixteen lower ball grooves 9-1 are arranged; four fixing holes 9-2 are arranged on the fixing frame; the rotating motor fixing seat 9-3 is positioned inside the fixing frame 9, and four threaded holes are processed on the rotating motor fixing seat 9-3; the air holes 9-4 are positioned at the lower part of the fixed frame 9, four groups of two air holes 9-4 are arranged in each group;

the radar motor 10 consists of a fixed block 10-1, a motor 10-2, a shaft 10-3 and a radar 10-4; four fixed blocks 10-1 are arranged, a through hole is processed in the middle of each fixed block 10-1, and the fixed blocks 10-1 are welded on the upper portion of the motor 10-2; the motor 10-2 is fixed at the lower part of the base 5 through a screw; the lower part of the shaft 10-3 is fixed with the radar 10-4 through a pin; the radar motor 10 is connected to the circuit, and the radar motor 10 is started. The radar motor 10 rotates to drive the lower radar 10-4 to rotate, the radar 10-4 detects the position of a person and transmits a signal to the signal processing mechanism;

the middle part of the television plate 1 is in threaded fit with the screw rod 2, and two sides of the television plate 1 are in contact with the sliding rails 7; the upper part of the screw rod 2 is contacted with the limit plate 6, and the lower part of the screw rod 2 is meshed with the lifting motor 3; the lifting motor 3 is fixed inside the rotating frame 8 through screws; the rotating mechanism 4 is meshed with the rotating frame 8, and the rotating mechanism 4 is fixed inside the fixed frame 9; the base 5 is fixed at the lower part of the fixed frame 9; the limiting plate 6 is fixed on the upper part of the slide rail 7; the slide rail 7 is fixed on the upper part of the rotating frame 8; the rotating frame 8 is positioned at the upper part of the fixed frame 9; the radar motor 10 is fixed to a lower portion of the base 5.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the present embodiment further describes the first embodiment, where three planet wheels 4-2 are provided.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the present embodiment further describes the first embodiment, in which the diameter of the rotating shaft hole 4-1-2 is larger than the diameter of the rotating motor shaft 4-4.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the present embodiment further describes the present embodiment, in which the material of the pass grinding ring 6-4 is alumina wear-resistant ceramic.

The working principle of the invention is as follows: the television rotation principle is as follows: the radar motor 10 is connected to the circuit, and the radar motor 10 is started. The radar motor 10 rotates to drive the lower radar 10-4 to rotate, the radar 10-4 detects the position of a person and transmits a signal to the signal processing mechanism, and the signal processing mechanism converts the signal into a signal for controlling the starting and stopping of the rotating motor 4-7. The rotating motor 4-7 is connected into a circuit, the signal processing mechanism starts the rotating motor 4-7, the rotating motor 4-7 rotates to drive the main gear 4-6 to rotate, the main gear 4-6 is meshed with the planet gear 4-2, the planet gear 4-2 rotates around the connecting shaft 4-5, the planet gear 4-2 is meshed with the toothed ring 8-4 inside the rotating frame 8, the planet gear 4-2 drives the toothed ring 8-4 to rotate, and the toothed ring 8-4 is fixed on the rotating frame 8, so that the rotating frame 8 rotates. The TV set is fixed on TV board 1, and TV board 1 contacts with slide rail 7, and slide rail 7 is fixed on swivel mount 8, so the TV set is rotatory in the drive of swivel mount 8. When the rotating motor 4-7 is rotated to a proper position, the radar 10-4 controls the rotating motor 4-7 to stop rotating.

The television lifting principle is as follows: the lifting motor 3 is connected into the circuit, and the lifting motor 3 is started. The lifting motor 3 rotates to drive the motor bevel gear 3-1 to rotate, the upper part of the motor bevel gear 3-1 is meshed with the horizontal bevel gear 2-3, the motor bevel gear 3-1 drives the horizontal bevel gear 2-3 to rotate, the horizontal bevel gear 2-3 is fixed at the lower part of the screw rod 2, so the horizontal bevel gear 2-3 drives the threaded rod 2-1 to rotate, the threaded rod 2-1 is in threaded fit with the television panel 1, the two sides of the television panel 1 are in contact with the sliding grooves 7-2 of the sliding rail 7, the sliding grooves 7-2 limit the rotation of the television panel 1, and the television panel 1 moves up and down along the sliding rail 7.

The protection principle is as follows: the lower part of the limiting plate 6 is provided with a spring 6-2, and when the television plate 1 rises to the upper part and contacts the baffle 6-5, the baffle 6-5 is driven to move upwards to compress the spring 6-2. The spring 6-2 serves to cushion the tv plate 1.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a multi-functional radar control people face is towards TV frame, includes panel (1), screw rod (2), elevator motor (3), rotary mechanism (4), base (5), limiting plate (6), slide rail (7), swivel mount (8), mount (9), radar motor (10), its characterized in that: the television plate (1) consists of a sliding strip (1-1), a television fixing hole (1-2), a fixing plate (1-3) and a threaded hole (1-4); the sliding strips (1-1) are rectangular, two sliding strips (1-1) are arranged, the sliding strips (1-1) are welded on two sides of the fixing plate (1-3), and the sliding strips (1-1) are in contact with the sliding rails (7); four television fixing holes (1-2) are arranged, the television fixing holes (1-2) are threaded through holes, and the television fixing holes (1-2) are positioned on the fixing plates (1-3); the fixing plate (1-3) is rectangular, and a threaded hole (1-4) is formed in the middle of the fixing plate (1-3); threads are processed inside the threaded holes (1-4), and the threaded holes (1-4) are in threaded fit with the screw rods (2);

the screw rod (2) consists of a threaded rod (2-1), a bearing (2-2) and a horizontal helical gear (2-3); the threaded rod (2-1) is positioned at the upper part of the threaded rod (2), the upper part of the threaded rod (2-1) is connected with the limiting plate (6), and the threaded rod (2-1) is in threaded fit with the threaded hole (1-4); the bearing (2-2) is positioned at the lower part of the screw rod (2), the bearing (2-2) is positioned at the lower part of the sliding rail (7), and the bearing (2-2) is positioned at the upper part of the rotating frame (8); the horizontal helical gear (2-3) is welded at the lower part of the screw rod (2), and the right side of the horizontal helical gear (2-3) is meshed with the motor helical gear (3-1);

the lifting motor (3) consists of a motor bevel gear (3-1), a motor shaft (3-2), a lifting motor (3-3) and a motor base (3-4); the motor bevel gear (3-1) is welded at the left end of the motor shaft (3-2), and the upper part of the motor bevel gear (3-1) is meshed with the horizontal bevel gear (2-3); the right side of the motor shaft (3-2) is connected with the lifting motor (3-3); the lifting motor (3-3) is fixed on the upper side inside the rotating frame (8); the motor bases (3-4) are cuboids, through holes are processed in the middle of the motor bases (3-4), four motor bases (3-4) are arranged, and the upper parts of the motor bases (3-4) are in contact with the inner wall of the upper side of the rotating frame (8);

the rotating mechanism (4) consists of a Y-shaped frame (4-1), a planet wheel (4-2), a nut (4-3), a rotating motor shaft (4-4), a connecting shaft (4-5), a main gear (4-6) and a rotating motor (4-7); the middle part of the Y-shaped frame (4-1) penetrates through the upper part of the rotating motor shaft (4-4), and the Y-shaped frame (4-1) and the connecting shaft (4-5) are mutually fixed through a screw cap; the middle part of the planet wheel (4-2) penetrates through the connecting shaft (4-5), the lower part of the planet wheel (4-2) is contacted with a nut, and the planet wheel (4-2) is meshed with the main gear (4-6); the screw cap (4-3) is positioned at the upper part of the main gear (4-6), the screw cap (4-3) is in threaded fit with the rotating motor shaft (4-4), and the upper part of the screw cap (4-3) is contacted with the Y-shaped frame (4-1); the upper part of the rotary motor shaft (4-4) penetrates through the middle part of the Y-shaped frame (4-1), and the middle part of the rotary motor shaft (4-4) is fixed with the main gear (4-6); three connecting shafts (4-5) are arranged, the middle part of each connecting shaft (4-5) penetrates through the planet wheel (4-2), the upper part of each connecting shaft (4-5) penetrates through the Y-shaped frame (4-1), and two ends of each connecting shaft (4-5) are in threaded fit with the nuts; the main gear (4-6) is fixed on a rotating motor shaft (4-4), a square pin groove is processed in the middle of the main gear (4-6), and the main gear (4-6) is meshed with the planet gear (4-2); the rotating motors (4-7) are fixed inside the fixed frame (9) through screws;

the Y-shaped frame (4-1) consists of a connecting shaft hole (4-1-1), a rotating shaft hole (4-1-2) and a frame (4-3); three connecting shaft holes (4-1-1) are arranged, and the middle part of each connecting shaft hole (4-1-1) penetrates through the connecting shaft (4-5); the rotating shaft hole (4-1-2) is positioned in the middle of the Y-shaped frame (4-1); one end of the frame (4-3) is provided with a connecting shaft hole (4-1-1);

the base (5) consists of a base fixing hole (5-1), a fixing frame groove (5-2) and a radar motor base (5-3); four base fixing holes (5-1) are arranged, and screws penetrate through the base fixing holes (5-1) to be fixed with the fixing frame (9); the fixed frame groove (5-2) is positioned at the upper part of the base (5), the fixed frame groove (5-2) is a circular groove, and the fixed frame groove (5-2) is in contact with the fixed frame (9); the radar motor base (5-3) is positioned at the middle lower part of the base (5), and the radar motor base (5-3) is fixed with the radar motor (10) through screws;

the limit plate (6) consists of a limit plate fixing screw (6-1), a spring (6-2), a pass grinding ring cover (6-3), a pass grinding ring (6-4) and a baffle plate (6-5); two limiting plate fixing screws (6-1) are arranged, the limiting plate fixing screws (6-1) are positioned at two ends of the limiting plate (6), and the lower part of the limiting plate fixing screw (6-1) is in threaded fit with the sliding rail (7); two springs (6-2) are arranged, the upper parts of the springs (6-2) are welded at the lower parts of the limiting plates (6), and the lower parts of the springs (6-2) are welded with the baffle plates (6-5); the program grinding ring cover (6-3) is annular, four threaded holes are processed on the program grinding ring cover (6-3), and the upper part of the program grinding ring cover (6-3) is in contact with the program grinding ring (6-4); the pass grinding ring (6-4) is annular, the outer part of the pass grinding ring (6-4) is in interference fit with the limiting plate (6), and the middle part of the pass grinding ring (6-4) is in contact with the screw (2); the baffle (6-5) is square, and the baffle (6-5) is in contact with the slide rail (7);

the sliding rail (7) consists of a limiting plate fixing hole (7-1), a sliding chute (7-2), a screw rod hole (7-3) and a sliding rail fixing hole (7-4); two limiting plate fixing holes (7-1) are arranged, and the limiting plate fixing holes (7-1) are positioned at the upper part of the sliding rail (7); the sliding groove (7-2) is positioned inside the sliding rail (7), the sliding groove (7-2) is in the vertical direction, and the sliding groove (7-2) is in contact with the television board (1); the screw hole (7-3) is positioned in the middle of the sliding rail (7), a bearing groove is processed at the lower part of the screw hole (7-3), and the screw hole (7-3) is contacted with the bearing (2-2); two sliding rail fixing holes (7-4) are arranged, and the sliding rail fixing holes (7-4) penetrate through the inner hexagonal screws to be fixed with the rotating frame (8);

the rotating frame (8) consists of a sliding rail fixing threaded hole (8-1), a bearing seat (8-2), a lifting motor fixing hole (8-3), a toothed ring (8-4), a limiting screw hole (8-5) and a ball groove (8-6); the slide rail fixing threaded holes (8-1) are formed in the upper part of the rotating frame (8), and two slide rail fixing threaded holes (8-1) are formed; the bearing seat (8-2) is positioned in the middle of the upper side of the rotating frame (8), and the bearing seat (8-2) is in contact with the bearing (2-2); four lifting motor fixing holes (8-3) are arranged; the gear ring (8-4) is positioned in the middle of the rotating frame (8), and the gear ring (8-4) is meshed with the planet wheel (4-2); four limiting screw holes (8-5) are arranged, the limiting screw holes (8-5) are in threaded fit with the inner hexagonal screw, and one end of the inner hexagonal screw is in contact with the fixing frame (9); sixteen ball grooves (8-6) are arranged, and spherical balls are arranged in the ball grooves (8-6);

the fixing frame (9) consists of a lower ball groove (9-1), a fixing hole (9-2) of the fixing frame, a fixing seat (9-3) of the rotating motor and an air hole (9-4); sixteen lower ball grooves (9-1) are arranged; four fixing holes (9-2) of the fixing frame are arranged; the rotating motor fixing seat (9-3) is positioned inside the fixing frame (9), and four threaded holes are processed on the rotating motor fixing seat (9-3); the air holes (9-4) are positioned at the lower part of the fixed frame (9), four groups of two air holes (9-4) are arranged;

the radar motor (10) consists of a fixed block (10-1), a motor (10-2), a shaft (10-3) and a radar (10-4); four fixing blocks (10-1) are arranged, a through hole is processed in the middle of each fixing block (10-1), and the fixing blocks (10-1) are welded on the upper portion of the motor (10-2); the motor (10-2) is fixed at the lower part of the base (5) through a screw; the lower part of the shaft (10-3) is fixed with the radar (10-4) through a pin;

the middle part of the television plate (1) is in threaded fit with the screw rod (2), and two sides of the television plate (1) are in contact with the sliding rail (7); the upper part of the screw rod (2) is contacted with the limiting plate (6), and the lower part of the screw rod (2) is meshed with the lifting motor (3); the lifting motor (3) is fixed inside the rotating frame (8) through screws; the rotating mechanism (4) is meshed with the rotating frame (8), and the rotating mechanism (4) is fixed inside the fixed frame (9); the base (5) is fixed at the lower part of the fixed frame (9); the limiting plate (6) is fixed at the upper part of the sliding rail (7); the sliding rail (7) is fixed on the upper part of the rotating frame (8); the rotating frame (8) is positioned at the upper part of the fixed frame (9); the radar motor (10) is fixed on the lower part of the base (5).

2. The multifunctional radar-controlled face-oriented television stand of claim 1, wherein: the number of the planet wheels (4-2) is three.

3. The multifunctional radar-controlled face-oriented television stand of claim 1, wherein: the diameter of the rotating shaft hole (4-1-2) is larger than that of the rotating motor shaft (4-4).

4. The multifunctional radar-controlled face-oriented television stand of claim 1, wherein: the distance grinding ring (6-4) is made of alumina wear-resistant ceramic.

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