CN214947767U

CN214947767U - Rotary conference all-in-one machine

Info

Publication number: CN214947767U
Application number: CN202120274503.3U
Authority: CN
Inventors: 何学铧; 罗诗欣
Original assignee: Guangdong Gaorui Electronic Technology Co ltd
Current assignee: Guangdong Gaorui Electronic Technology Co ltd
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-11-30
Anticipated expiration: 2031-01-29

Abstract

The utility model discloses a rotary type conference all-in-one machine, which comprises an all-in-one machine body and a frame; the rack comprises a chassis, a moving device for driving the chassis to move, a vertical rod arranged on the chassis and extending along the vertical direction, a cross rod and a turnover device; the transverse rod is provided with a downward extending linkage shaft, the upper end of the vertical rod is provided with a bearing mounting hole and a mounting cavity, a power part is mounted in the mounting cavity, and the power part is used for driving the linkage shaft to rotate; a rotating shaft is fixed on the all-in-one machine body; the rotating shaft is rotatably arranged on the cross rod, and the turnover device comprises a transmission shaft, a first motor, a gear assembly, a first transmission device and a second transmission device. The utility model discloses the angle of adjustable all-in-one machine organism, reducible because of the reflection of light of all-in-one machine organism screen causes the phenomenon that can't see conference content clearly, moreover, still can fold all-in-one machine organism upset downwards, the convenience is in depositing.

Description

Rotary conference all-in-one machine

Technical Field

The utility model relates to a rotation type meeting all-in-one.

Background

The conference all-in-one machine has the advantages of convenience in use and the like, and is widely applied to conference rooms. The existing conference room all-in-one machine comprises an all-in-one machine body and a rack, wherein the all-in-one machine body is fixed at the upper end of the rack. However, the angle of the all-in-one machine body cannot be adjusted, so that participants at the left and right sides of the conference room often cannot see the conference content clearly due to the reflection of light of the screen of the all-in-one machine body, and the industrial requirements cannot be met. Moreover, the machine body of the all-in-one machine is directly fixed on the frame and cannot be folded, so that the all-in-one machine needs to occupy a large storage space in the storage process, and is inconvenient to store.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a rotary type conference all-in-one machine, the angle of its adjustable all-in-one machine organism, reducible because of the reflection of light of all-in-one machine organism screen causes the phenomenon that can't see the meeting content clearly, moreover, still can fold the downward upset of all-in-one machine organism, can reduce the volume, convenient in depositing.

The purpose of the utility model is realized by adopting the following technical scheme:

a rotary type all-in-one machine for a conference comprises an all-in-one machine body and a frame; the frame comprises a chassis, a moving device for driving the chassis to move, a vertical rod arranged on the chassis and extending along the vertical direction, a cross rod and a turnover device arranged on the cross rod and used for driving the all-in-one machine body to turn over; the cross rod is provided with a downward extending linkage shaft, the upper end of the vertical rod is provided with a bearing mounting hole and a mounting cavity which is positioned below the bearing mounting hole and communicated with the bearing mounting hole, an upper bearing is mounted in the bearing mounting hole, and the linkage shaft is fixedly inserted into an inner ring of the upper bearing; the central axis of the linkage shaft is superposed with the central axis of the vertical rod; a power part is arranged in the mounting cavity and used for driving the linkage shaft to rotate; a rotating shaft is fixed on the all-in-one machine body; the rotating shaft is rotatably arranged on the cross rod, and the turnover device comprises a transmission shaft, a first motor, a gear assembly, a first transmission device and a second transmission device which are rotatably arranged in the cross rod; the central axis of the transmission shaft is parallel to the central axis of the rotating shaft, and the central axis of the rotating shaft is vertical to the central axis of the linkage shaft; the rotary power of the first motor is transmitted to the transmission shaft through the gear assembly; one end of the rotating shaft is formed into a first end, and the other end of the rotating shaft is formed into a second end; install first transmission between the first end of pivot and the transmission shaft, install second transmission between the second end of pivot and the transmission shaft.

The power component is a second motor, the body of the motor is located in the installation cavity, and the output shaft of the second motor is connected with the linkage shaft through a coupler.

The gear assembly comprises a driving bevel gear and a driven bevel gear; the first motor is arranged in the cross rod; the driving bevel gear is fixed on an output shaft of the first motor, and the driven bevel gear is fixed on the transmission shaft and meshed with the driving bevel gear.

The first transmission device comprises a first driving belt wheel fixed on the transmission shaft, a first driven belt wheel fixed on the first end of the rotating shaft, and a first transmission belt wound on the first driving belt wheel and the first driven belt wheel; the second transmission device comprises a second driving belt wheel fixed on the transmission shaft, a second driven belt wheel fixed on the second end of the rotating shaft, and a second transmission belt wound on the second driving belt wheel and the second driven belt wheel.

The moving device comprises a driving shaft which is rotatably arranged on the chassis, a driven shaft which is rotatably arranged on the chassis and a driving assembly which is used for driving the driving shaft to rotate; the central axis of the driving shaft is parallel to the central axis of the driven shaft; and driving rollers are fixed at two ends of the driving shaft, and driven rollers are fixed at two ends of the driven shaft.

The driving assembly comprises a third driving belt wheel, a third motor used for driving the third driving belt wheel to rotate, a third driven belt wheel fixed on the driving shaft, and a third transmission belt wound on the third driving belt wheel and the third driven belt wheel.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model provides a pair of rotation type meeting all-in-one, it is through adopting the all-in-one organism, a chassis, a mobile device, the montant, the horizontal pole, turning device, the universal driving shaft, power part's combination design, and through adopting turning device transmission shaft, a motor, the gear assembly, first transmission, and second transmission's combination design, usable power part drives the universal driving shaft and rotates, rotate with driving the all-in-one organism, thereby the angle of adjustable all-in-one organism, can reduce the phenomenon that can't see meeting content clearly because of the reflection of light of all-in-one organism screen causes, and, still can fold the downward upset of all-in-one organism, thereby can reduce the volume, convenient in depositing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is an exploded view of the flipping mechanism;

FIG. 4 is a schematic structural diagram of a mobile device;

fig. 5 is a cross-sectional view of the present invention;

10. an all-in-one machine body; 11. a rotating shaft; 20. a frame; 21. a chassis; 22. a vertical rod; 23. a bearing mounting hole; 24. a mounting cavity; 25. a bearing is arranged; 26. a power component; 30. a turning device; 31. a drive shaft; 32. a first motor; 40. a gear assembly; 41. a drive bevel gear; 42. a driven bevel gear; 50. a first transmission device; 51. a first driving pulley; 52. a first driven pulley; 53. a first drive belt; 60. a second transmission device; 61. a second driving pulley; 62. a second driven pulley; 63. a second belt; 70. a cross bar; 71. a main rod body; 72. a first side cover; 73. a second side cover; 74. a linkage shaft; 80. a mobile device; 81. a drive shaft; 82. a driven shaft; 83. a driving roller; 84. a driven roller; 90. a drive assembly; 91. a third driving pulley; 92. a third motor; 93. a third driven pulley; 94. a third belt.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

As shown in fig. 1-5, a rotary conference all-in-one machine comprises an all-in-one machine body 10 and a frame 20; the rack 20 comprises a chassis 21, a moving device 80 for driving the chassis 21 to move, a vertical rod 22 arranged on the chassis 21 and extending in the vertical direction, a cross rod 70, and a turnover device 30 arranged on the cross rod 70 and used for driving the all-in-one machine body 10 to turn over; the cross bar 70 is provided with a downward extending linkage shaft 74, the upper end of the vertical bar 22 is provided with a bearing mounting hole 23 and a mounting cavity 24 which is positioned below the bearing mounting hole 23 and communicated with the bearing mounting hole 23, an upper bearing 25 is mounted in the bearing mounting hole 23, and the linkage shaft 74 is fixedly inserted into an inner ring of the upper bearing 25; the central axis of the linkage shaft 74 is coincident with the central axis of the vertical rod 22; a power part 26 is arranged in the mounting cavity 24, and the power part 26 is used for driving the linkage shaft 74 to rotate; a rotating shaft 11 is fixed on the all-in-one machine body 10; the rotating shaft 11 is rotatably mounted on the cross bar 70, and the turnover device 30 comprises a transmission shaft 31 rotatably mounted in the cross bar 70, a first motor 32, a gear assembly 40, a first transmission device 50 and a second transmission device 60; the central axis of the transmission shaft 31 is parallel to the central axis of the rotating shaft 11, and the central axis of the rotating shaft 11 is perpendicular to the central axis of the linkage shaft 74; the rotating power of the first motor 32 is transmitted to the transmission shaft 31 through the gear assembly 40; one end of the rotating shaft 11 is formed as a first end, and the other end is formed as a second end; a first transmission device 50 is installed between the first end of the rotating shaft 11 and the transmission shaft 31, and a second transmission device 60 is installed between the second end of the rotating shaft 11 and the transmission shaft 31.

When the integrated machine is used, the power part 26 works to drive the linkage shaft 74 to rotate, so that the cross bar 70 and the integrated machine body 10 can be driven to rotate, the angle of the integrated machine body 10 can be adjusted, and the phenomenon that meeting contents cannot be seen clearly due to the fact that the screen of the integrated machine body 10 reflects light can be reduced. If the all-in-one machine needs to be stored, the first motor 32 can be used for driving the transmission shaft 31 to rotate reversely and positively through the gear assembly 40, then the rotating shaft 11 is driven to rotate through the first transmission device 50 and the second transmission device 60, and the all-in-one machine body 10 can be driven to turn downwards to be folded, so that the size of the all-in-one machine can be reduced, the required storage space is reduced, the all-in-one machine is convenient to store, and the phenomenon that the screen of the all-in-one machine body 10 is damaged due to impact in the storage process can be reduced. If need use, usable first motor 32 passes through gear assembly 40 and drives transmission shaft 31 forward rotation, then drives pivot 11 through first transmission 50, second transmission 60 and rotates, drives all-in-one machine body 10 upwards upset.

The power component 26 is a second motor, the body of the motor is located in the installation cavity 24, and the output shaft of the second motor is connected with the linkage shaft 74 through a coupler. By adopting the structure, the installation is convenient.

The gear assembly 40 includes a drive bevel gear 41 and a driven bevel gear 42; the drive bevel gear 41 is fixed to an output shaft of the first motor 32, and the driven bevel gear 42 is fixed to the transmission shaft 31 and engaged with the drive bevel gear 41. By adopting the above structure, the first motor 32 drives the driving bevel gear 41 to rotate, and the driven bevel gear 42 can be driven to rotate together with the transmission shaft 31.

The first transmission device 50 comprises a first driving pulley 51 fixed on the transmission shaft 31, a first driven pulley 52 fixed on the first end of the rotating shaft 11, and a first transmission belt 53 wound on the first driving pulley 51 and the first driven pulley 52; the second transmission 60 includes a second driving pulley 61 fixed to the transmission shaft 31, a second driven pulley 62 fixed to the second end of the rotation shaft 11, and a second transmission belt 63 wound around the second driving pulley 61 and the second driven pulley 62. During the rotation of the transmission shaft 31, the first driving pulley 51 and the second driving pulley 61 rotate along with the transmission shaft 31, so that the first driving belt 53 and the second driving belt 63 can drive the first driven pulley 52 and the second driven pulley 62 to rotate, so as to drive the rotation shaft 11 to rotate. By adopting the structure, the two sides of the rotating shaft 11 can be stressed more uniformly, and the rotating stability of the rotating shaft 11 is improved.

The cross bar 70 comprises a main bar body 71, a first side cover 72 which is detachably arranged on one side of the main bar body 71 and forms a first accommodating cavity with the main bar body 71, and a second side cover 73 which is detachably arranged on the other side of the main bar body 71 and forms a second accommodating cavity with the main bar body 71; a first side plate is further arranged on one side of the main rod body 71, a second side plate is further arranged on the other side of the main rod body, a first end of the rotating shaft 11 is rotatably arranged on the first side plate and extends into the first accommodating cavity, and a second end of the rotating shaft 11 is rotatably arranged on the second side plate and extends into the second accommodating cavity; the first transmission 50 is located in the first receiving cavity and the second transmission 60 is located in the second receiving cavity. By adopting the above structure, the first and second side covers 72 and 73 can be disassembled to facilitate maintenance and part replacement of the first and

second transmission devices

50 and 60.

Specifically, an accommodating cavity is formed in the main rod body 71, and the first motor 32, the transmission shaft 31 and the gear assembly 40 are located in the accommodating cavity.

Preferably, one side of the main rod body 71 is further provided with a first mounting hole, the other side of the main rod body is provided with a second mounting hole, a first bearing is mounted in the first mounting hole, a second bearing is mounted in the second mounting hole, one end of the transmission shaft 31 is fixedly inserted into an inner ring of the first bearing and extends into the first accommodating cavity, and the other end of the transmission shaft 31 is fixedly inserted into an inner ring of the second bearing and extends into the second accommodating cavity. By adopting the above structure, the rotation of the transmission shaft 31 can be smoother.

Install the third bearing on the first curb plate, install the fourth bearing on the second curb plate, the fixed cartridge of first end of pivot 11 is in the inner circle of third bearing, the fixed cartridge of second end of pivot 11 is in the inner circle of fourth bearing to improve pivot 11 pivoted smoothness nature.

The moving device 80 comprises a driving shaft 81 rotatably mounted on the chassis 21, a driven shaft 82 rotatably mounted on the chassis 21, and a driving assembly 90 for driving the driving shaft 81 to rotate; the central axis of the driving shaft 81 is parallel to the central axis of the driven shaft 82; the driving shaft 81 has driving rollers 83 fixed at both ends thereof, and the driven shaft 82 has driven rollers 84 fixed at both ends thereof. When the conference all-in-one machine is used, if the conference all-in-one machine needs to be moved to other conference rooms, the driving shaft 81 is driven to rotate through the driving assembly 90, and then the driving idler wheel 83 can be driven to rotate, so that the automatic movement of the conference all-in-one machine can be realized, manual carrying and transfer of the conference all-in-one machine are not needed, and the workload of workers can be reduced.

The driving assembly 90 includes a third driving pulley 91, a third motor 92 for driving the third driving pulley 91 to rotate, a third driven pulley 93 fixed on the driving shaft 81, and a third transmission belt 94 wound around the third driving pulley 91 and the third driven pulley 93. In use, the third motor 92 is operated to rotate the third driving pulley 91, so as to drive the third driven pulley 93 to rotate together with the driving shaft 81 via the third driving belt 94. Specifically, the body of the third motor 92 is fixed in the chassis 21, and the third driving pulley 91 is fixed on the output shaft of the third motor 92.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims

1. A rotary type all-in-one machine for a conference comprises an all-in-one machine body and a frame; the method is characterized in that: the frame comprises a chassis, a moving device for driving the chassis to move, a vertical rod arranged on the chassis and extending along the vertical direction, a cross rod and a turnover device arranged on the cross rod and used for driving the all-in-one machine body to turn over; the cross rod is provided with a downward extending linkage shaft, the upper end of the vertical rod is provided with a bearing mounting hole and a mounting cavity which is positioned below the bearing mounting hole and communicated with the bearing mounting hole, an upper bearing is mounted in the bearing mounting hole, and the linkage shaft is fixedly inserted into an inner ring of the upper bearing; the central axis of the linkage shaft is superposed with the central axis of the vertical rod; a power part is arranged in the mounting cavity and used for driving the linkage shaft to rotate; a rotating shaft is fixed on the all-in-one machine body; the rotating shaft is rotatably arranged on the cross rod, and the turnover device comprises a transmission shaft, a first motor, a gear assembly, a first transmission device and a second transmission device which are rotatably arranged in the cross rod; the central axis of the transmission shaft is parallel to the central axis of the rotating shaft, and the central axis of the rotating shaft is vertical to the central axis of the linkage shaft; the rotary power of the first motor is transmitted to the transmission shaft through the gear assembly; one end of the rotating shaft is formed into a first end, and the other end of the rotating shaft is formed into a second end; install first transmission between the first end of pivot and the transmission shaft, install second transmission between the second end of pivot and the transmission shaft.

2. The all-in-one rotary conference machine of claim 1, wherein: the power component is a second motor, the body of the motor is located in the installation cavity, and the output shaft of the second motor is connected with the linkage shaft through a coupler.

3. The all-in-one rotary conference machine of claim 1, wherein: the gear assembly comprises a driving bevel gear and a driven bevel gear; the first motor is arranged in the cross rod; the driving bevel gear is fixed on an output shaft of the first motor, and the driven bevel gear is fixed on the transmission shaft and meshed with the driving bevel gear.

4. The all-in-one rotary conference machine of claim 1, wherein: the first transmission device comprises a first driving belt wheel fixed on the transmission shaft, a first driven belt wheel fixed on the first end of the rotating shaft, and a first transmission belt wound on the first driving belt wheel and the first driven belt wheel; the second transmission device comprises a second driving belt wheel fixed on the transmission shaft, a second driven belt wheel fixed on the second end of the rotating shaft, and a second transmission belt wound on the second driving belt wheel and the second driven belt wheel.

5. The all-in-one rotary conference machine of claim 1, wherein: the moving device comprises a driving shaft which is rotatably arranged on the chassis, a driven shaft which is rotatably arranged on the chassis and a driving assembly which is used for driving the driving shaft to rotate; the central axis of the driving shaft is parallel to the central axis of the driven shaft; and driving rollers are fixed at two ends of the driving shaft, and driven rollers are fixed at two ends of the driven shaft.

6. The all-in-one rotary conference machine of claim 5, wherein: the driving assembly comprises a third driving belt wheel, a third motor used for driving the third driving belt wheel to rotate, a third driven belt wheel fixed on the driving shaft, and a third transmission belt wound on the third driving belt wheel and the third driven belt wheel.