SUMMERY OF THE UTILITY MODEL
For solving the above-mentioned technical problem that exists among the prior art, the utility model aims to provide a rotary device for flexible transmission unit is carrying out end to end after to flexible transmission unit festival by festival, can alternate bend angle at any time according to the actual need in place, and every festival transmission unit all can the independent control rotation angle, can form different "S" type transmission path like this, realizes the flexibility control promptly to satisfy the transport in various places and put the demand.
In order to achieve the above purpose, the utility model provides a following technical scheme:
the utility model provides a rotary device for flexible transmission unit, includes the flexible transmission unit that links to each other end to end in proper order, flexible transmission unit include main body frame and set up in the semicircle transmission module in main body frame the place ahead, the two is connected through meshing transmission module, makes semicircle transmission module can for main body frame rotates to realize more nimble changeable and accurate angular rotation control between the adjacent flexible transmission unit, reach the purpose of really flexible transmission and ingenious obstacle of evading.
Preferably, the meshing transmission module comprises a rack arranged on the main body frame, a semicircular gear fixed below the semicircular transmission module, and a driving device for driving the rack to move; the rack is matched with the semicircular gear.
Preferably, a connecting plate is fixed on the main body frame, and the driving device is fixedly connected to the connecting plate.
Preferably, the driving device comprises an electric sliding table, and a connecting block is arranged at the head of a telescopic rod of the electric sliding table and used for connecting the rack with the electric sliding table.
Preferably, a square transmission module is further fixed to the rear portion of the main body frame, and the side distance of the square transmission module is equidistant to the diameter of the semicircular transmission module.
Preferably, the upper surfaces of the semicircular transmission module and the square transmission module are provided with a balance wheel capable of rotating.
Preferably, a round sleeve is arranged at the front end of the main body frame, a semicircular rotating shaft matched with the size of the round sleeve is arranged in the round sleeve, and the semicircular rotating shaft is fixed below the semicircular transmission module, so that the semicircular transmission module can rotate by taking the round sleeve as the center of a circle.
Preferably, the rotation included angle of the semicircular transmission module relative to the main body frame is in the range of plus or minus 90 degrees.
Preferably, the two sides of the main body frame are provided with a support frame which can rotate and be fixed.
Preferably, the main body frame further comprises a belt conveying device for conveying goods.
Compared with the prior art, a rotary device for flexible transmission unit, reached following effect:
(1) the rotating device of the flexible transmission unit consists of a rotatable semicircular gear, a movable rack and an electric sliding table for pushing the rack, and the stroke of the electric sliding table can be adjusted according to the required rotating angle.
(2) When the flexible transmission unit end to end, according to the route of host computer planning, send the order to electronic slip table, electronic slip table promotes the rack and then drives the semicircle gear and rotate to suitable angle, accomplishes the angular adjustment of this department, and limit adjustment range is 90 degrees. The other transmission units are adjusted according to the adjustment.
(3) Each section of transmission unit can independently control the rotation angle, so that different S-shaped transmission paths can be formed, flexible control is realized, and the requirements of conveying and placing in various fields are met.
Detailed Description
As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. The description which follows is a preferred embodiment of the present application, but is made for the purpose of illustrating the general principles of the application and not for the purpose of limiting the scope of the application. The protection scope of the present application shall be subject to the definitions of the appended claims.
Referring to fig. 1-7, in a preferred embodiment, a rotating device for a flexible transmission unit comprises flexible transmission units connected end to end in sequence, wherein the flexible transmission unit comprises a main frame 5 and a semicircular transmission module 4 arranged in front of the main frame 5, and the two are connected through a meshing transmission module, so that the semicircular transmission module 4 can rotate relative to the main frame 5, as shown in fig. 6, to form different S-shaped transmission paths, thereby realizing flexible control to meet the transportation and placement requirements of various fields.
Further, the meshing transmission module comprises a rack 1 arranged on the main body frame 5, a semicircular gear 2 fixed below the semicircular transmission module 4, and a driving device for driving the rack 1 to move; the rack 1 and the semicircular gear 2 are mutually matched.
A connecting plate 10 is fixed on the main body frame 5, and the driving device is fixedly connected on the connecting plate 10.
Further, drive arrangement includes electronic slip table 8 the telescopic link head of electronic slip table 8 is provided with connecting block 9 for connect rack 1 with electronic slip table 8, its stroke can be adjusted according to the angle that needs electronic slip table 8 rotatory.
Further, a round sleeve 11 is arranged at the front end of the main body frame 5, a semicircular rotating shaft 12 matched with the size of the round sleeve 11 is arranged in the round sleeve 11, and the semicircular rotating shaft 12 is fixed below the semicircular transmission module 4, so that the semicircular transmission module 4 can rotate by taking the round sleeve 11 as a circle center.
Further, the main body frame 5 further comprises a belt conveying device 6 for conveying goods, and the semicircular transmission module 4 is further provided with a rotatable balance wheel 3 for providing power for the transportation of the goods; the two sides of the main body frame 5 are also provided with a support frame 13 which can rotate and be fixed.
Furthermore, the tail part of the main body frame 5 is also provided with a connecting device which can be embedded into the round sleeve 11, and the connecting device can be specifically set as a bulge matched with the shape of the round sleeve 11.
After the flexible transmission units are butted one by one, sending a command to the electric sliding table 8 according to a path planned by an upper computer, wherein the electric sliding table 8 pushes the rack 1 to further drive the semicircular gear 2 to rotate to a proper angle, so that the angle adjustment of the position is completed, and the rotating included angle of the semicircular transmission module 4 relative to the main body frame 5 is in a range of plus or minus 90 degrees; the flexible transmission device is used for realizing more flexible and variable and accurate angle rotation control between adjacent flexible transmission units, and achieving the purposes of real flexible transmission and skillfully avoiding obstacles. The other sections of flexible transmission units are adjusted according to the adjustment.
Referring to fig. 1-7, in another preferred embodiment, a rotating device for a flexible transmission unit comprises flexible transmission units connected end to end in sequence, wherein the flexible transmission unit comprises a main frame 5 and a semicircular transmission module 4 arranged in front of the main frame 5, and the two are connected through a meshing transmission module, so that the semicircular transmission module 4 can rotate relative to the main frame 5, as shown in fig. 6, to form different S-shaped transmission paths, thereby realizing flexible control and meeting the transportation and placement requirements of various fields.
Further, the meshing transmission module comprises a rack 1 arranged on the main body frame 5, a semicircular gear 2 fixed below the semicircular transmission module 4, and a driving device for driving the rack 1 to move; the rack 1 and the semicircular gear 2 are mutually matched.
A connecting plate 10 is fixed on the main body frame 5, and the driving device is fixedly connected on the connecting plate 10.
Further, drive arrangement includes electronic slip table 8 the telescopic link head of electronic slip table 8 is provided with connecting block 9 for connect rack 1 with electronic slip table 8, its stroke can be adjusted according to the angle that needs electronic slip table 8 rotatory.
Further, a round sleeve 11 is arranged at the front end of the main body frame 5, a semicircular rotating shaft 12 matched with the size of the round sleeve 11 is arranged in the round sleeve 11, and the semicircular rotating shaft 12 is fixed below the semicircular transmission module 4, so that the semicircular transmission module 4 can rotate by taking the round sleeve 11 as a circle center.
Further, the main body frame 5 further comprises a belt conveying device 6 for conveying goods, and the belt conveying device is used for providing power for the transportation of the goods; the rear part of the main body frame 5 is also fixed with a square transmission module 7, and the edge distance of the square transmission module 7 is equal to the diameter of the semicircular transmission module 4. Rotatable balance wheels 3 are arranged on the semicircular transmission module 4 and the square transmission module 7; the two sides of the main body frame 5 are also provided with a support frame 13 which can rotate and be fixed.
Furthermore, the tail part of the main body frame 5 is also provided with a connecting device which can be embedded into the round sleeve 11, and the connecting device can be specifically set as a bulge matched with the shape of the round sleeve 11.
After the flexible transmission units are butted one by one, as shown in fig. 7, a command is sent to the electric sliding table 8 according to a path planned by an upper computer, the electric sliding table 8 pushes the rack 1 to further drive the semicircular gear 2 to rotate to a proper angle, so that the angle adjustment of the position is completed, and the rotation included angle of the semicircular transmission module 4 relative to the main body frame 5 is in a range of plus or minus 90 degrees; the flexible transmission device is used for realizing more flexible and variable and accurate angle rotation control between adjacent flexible transmission units, and achieving the purposes of real flexible transmission and skillfully avoiding obstacles. The other sections of flexible transmission units are adjusted according to the adjustment.
Referring to fig. 1-7, in another preferred embodiment, a rotating device for a flexible transmission unit comprises flexible transmission units connected end to end in sequence, wherein the flexible transmission unit comprises a main frame 5 and a semicircular transmission module 4 arranged in front of the main frame 5, and the two are connected through a meshing transmission module, so that the semicircular transmission module 4 can rotate relative to the main frame 5, as shown in fig. 6, to form different S-shaped transmission paths, thereby realizing flexible control and meeting the transportation and placement requirements of various fields.
Further, the meshing transmission module comprises a rack 1 arranged on the main body frame 5, a semicircular gear 2 fixed below the semicircular transmission module 4, and a driving device for driving the rack 1 to move; the rack 1 and the semicircular gear 2 are mutually matched.
A connecting plate 10 is fixed on the main body frame 5, and the driving device is fixedly connected on the connecting plate 10.
Further, drive arrangement includes electronic slip table 8 the telescopic link head of electronic slip table 8 is provided with connecting block 9 for connect rack 1 with electronic slip table 8, its stroke can be adjusted according to the angle that needs electronic slip table 8 rotatory.
Further, a round sleeve 11 is arranged at the front end of the main body frame 5, a semicircular rotating shaft 12 matched with the size of the round sleeve 11 is arranged in the round sleeve 11, and the semicircular rotating shaft 12 is fixed below the semicircular transmission module 4, so that the semicircular transmission module 4 can rotate by taking the round sleeve 11 as a circle center.
Further, the main body frame 5 further comprises a belt conveying device 6 for conveying goods, and the belt conveying device is used for providing power for the transportation of the goods; the rear part of the main body frame 5 is also fixed with a square transmission module 7, and the edge distance of the square transmission module 7 is equal to the diameter of the semicircular transmission module 4. The semicircular transmission module 4 and the square transmission module 7 are respectively provided with a rotatable balance wheel 3, furthermore, the balance wheel 3 has self-rotating force and steering power, and the self-rotating speed is the same as the speed of the belt conveying device 6, so that not only can power the transportation of goods be provided, but also the semicircular transmission module 4 can rotate in the opposite direction by the same angle while rotating, so as to ensure the normal transportation direction of the goods. Further, two sides of the main body frame 5 are provided with support frames 13 which can rotate and fix.
Furthermore, the tail part of the main body frame 5 is also provided with a connecting device which can be embedded into the round sleeve 11, and the connecting device can be specifically set as a bulge matched with the shape of the round sleeve 11.
After the flexible transmission units are butted one by one, as shown in fig. 7, a command is sent to the electric sliding table 8 according to a path planned by an upper computer, the electric sliding table 8 pushes the rack 1 to further drive the semicircular gear 2 to rotate to a proper angle, so that the angle adjustment of the position is completed, and the rotation included angle of the semicircular transmission module 4 relative to the main body frame 5 is in a range of plus or minus 90 degrees; the flexible transmission device is used for realizing more flexible and variable and accurate angle rotation control between adjacent flexible transmission units, and achieving the purposes of real flexible transmission and skillfully avoiding obstacles. The other sections of flexible transmission units are adjusted according to the adjustment.
Compared with the prior art, a rotary device for flexible transmission unit, reached following effect:
(1) the rotating device of the flexible transmission unit consists of a rotatable semicircular gear, a movable rack and an electric sliding table for pushing the rack, and the stroke of the electric sliding table can be adjusted according to the required rotating angle.
(2) When the flexible transmission unit end to end, according to the route of host computer planning, send the order to electronic slip table, electronic slip table promotes the rack and then drives the semicircle gear and rotate to suitable angle, accomplishes the angular adjustment of this department, and limit adjustment range is 90 degrees. The other transmission units are adjusted according to the adjustment.
(3) Each section of transmission unit can independently control the rotation angle, so that different S-shaped transmission paths can be formed, flexible control is realized, and the requirements of conveying and placing in various fields are met.
The foregoing description shows and describes several preferred embodiments of the present application, but as aforementioned, it is to be understood that the application is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the application as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the application, which is to be protected by the claims appended hereto.