CN214924430U - Material transports arm - Google Patents
Material transports arm Download PDFInfo
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- CN214924430U CN214924430U CN202121112297.2U CN202121112297U CN214924430U CN 214924430 U CN214924430 U CN 214924430U CN 202121112297 U CN202121112297 U CN 202121112297U CN 214924430 U CN214924430 U CN 214924430U
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Abstract
The application provides a material conveying mechanical arm, and particularly relates to the technical field of mechanical arms, wherein the material conveying mechanical arm is provided with a base, a base joint, a beam arm, a movable arm, a lifting arm and an execution joint, wherein the base is fixedly provided with the base joint; a crossbeam arm is fixedly arranged on the base joint, a movable arm is arranged on the crossbeam arm, and the movable arm is provided with a positioning frame positioned on the right side surface or the left side surface of the movable arm and the crossbeam arm; the front end of the movable arm is provided with a lifting arm, and the lower end of the lifting arm is provided with an execution joint. The servo motor is preferably adopted to base joint, motor one and motor two that this application has, and the position setting of digging arm locating rack has solved current arm well and has transported the limited problem of material scope, has improved the operational flexibility of the arm of this application, has higher using value widely.
Description
Technical Field
The application provides a material transports arm, concretely relates to arm technical field.
Background
The existing truss for conveying machine tool materials is mostly erected above processing equipment, the truss usually needs to be supported by upright columns on two sides to bear the weight of the whole truss, a cross beam of the truss is easy to deform or even bend after being used for a long time, and due to the limitation of operating space, the working space of a working arm of the truss is limited by the length of the working arm of the truss, the working radius is also limited, and the large-span space operation cannot be completed. In view of this, many manufacturing enterprises have introduced a truss-type manipulator to replace the manual work for loading and unloading, and such transportation work with high labor intensity and high risk coefficient is an important component device for material transportation on an automatic production line.
Truss robot configurations typically include uprights, crossbeams, robotic arms, and end effectors, among others. When the distance for conveying the materials is relatively long, or when the materials are conveyed from a higher position to a lower position, the truss mechanical arm is difficult to realize, cannot meet the conveying requirements of the materials at different heights, and often needs to be manually conveyed; meanwhile, the material conveying mechanical arm with the telescopic function usually adopts a mode that the telescopic sliding beam extends out of the cross beam to expand the conveying space, and the retracted telescopic sliding beam cannot perform small corresponding conveying actions within the self range of the cross beam. In addition, the existing truss mechanical arm cannot meet the requirement of material conveying of multiple machine tools, so that the working efficiency is low.
Disclosure of Invention
Aiming at the defect that the existing conveying mechanical arm is limited by the running space, the application particularly provides a material conveying mechanical arm which is characterized by comprising a base, a base joint, a crossbeam arm, a movable arm, a lifting arm and an execution joint, wherein the base joint is fixedly arranged on the base; a crossbeam arm is fixedly arranged on the base joint, a movable arm is arranged on the crossbeam arm, and the movable arm is provided with a positioning frame positioned on the right side surface or the left side surface of the movable arm and the crossbeam arm; the front end of the movable arm is provided with a lifting arm, and the lower end of the lifting arm is provided with an execution joint.
Preferably, the base has a base upper fixing plate fixedly mounted with a base joint, and the base joint passes through the base upper fixing plate and is fixed on the base upper fixing plate.
Preferably, a crossbeam arm is fixedly installed on the base joint, a crossbeam arm supporting plate is arranged between the base joint and the crossbeam arm, and the crossbeam arm is fixed on the crossbeam arm supporting plate.
Preferably, the beam arm support plate fixing position is located at a rear end of the beam arm.
Preferably, the beam arm is provided with a screw rod, a first motor support and a nut support, two ends of the screw rod are fixed at the front end and the rear end inside the beam arm, the nut support is arranged on the screw rod, the first motor, the first nut support and the movable arm are fixedly connected with the motor, the nut support is provided with a synchronizing wheel, the synchronizing wheel is fixedly connected with the nut support and sleeved on the screw rod, a synchronous belt is arranged between the first motor and the nut support, and the first motor drives the synchronizing wheel and the nut support through the synchronous belt.
Preferably, a second motor, a transmission rod and a gear are arranged on the movable arm, the second motor is installed at the rear end of the movable arm, the gear is arranged at the front end of the movable arm through the transmission rod, the second motor is connected with the transmission rod, the transmission rod fixes the gear, the lifting arm is provided with a rack, and the rack is matched with the gear.
Preferably, the movable arm is further provided with a positioning frame, the positioning frame is located at the front end of the movable arm, a rack and a gear are arranged inside the positioning frame in a matched mode, and a sliding device is arranged between the back face of the lifting arm and the positioning frame.
Preferably, the lower end of the lifting arm is provided with an upper joint and a lower joint, the upper joint is arranged on the first L-shaped support, and the lower joint is arranged on the second L-shaped support.
Preferably, the vertical end face of the first L-shaped support is fixed on the lifting arm, the upper joint extends out of the horizontal end face of the first L-shaped support to be connected with and fixed with the second L-shaped support, the vertical end face of the second L-shaped support is fixed with the lower joint, the vertical end face of the lower joint extending out of the second L-shaped support is connected with the vertical end face of the trihedral support, and the first clamping jaw and the second clamping jaw are respectively installed on the other two end faces of the trihedral support.
Preferably, the base joint, the first motor and the second motor are servo motors.
The utility model provides a fixed mounting has the base joint on the base, and the installation is fixed with the crossbeam arm on the base joint, installs the digging arm on the crossbeam arm, and the locating rack that has of digging arm is located digging arm and crossbeam arm right flank/or left surface, and the lifing arm is installed to the front end of digging arm, and the execution joint is installed to the lower extreme of lifing arm. The servo motor is preferably adopted to base joint, motor one and motor two that this application has, and the position setting of digging arm locating rack has solved current arm well and has transported the limited problem of material scope, has improved the operational flexibility of the arm of this application, has higher using value widely.
Drawings
FIG. 1 is a main structural view of a material handling robot of the present application;
FIG. 2 is a front side view of a material handling robot of the present application;
FIG. 3 is a schematic view of a first motor and nut bracket of a material handling robot according to the present application;
FIG. 4 is a lift arm lift configuration view of a material handling robot of the present application;
FIG. 5 is a view of the lower joint configuration of the upper joint of an implement joint of a material handling robot according to the present application.
Reference numerals: the device comprises a base 10, a base upper fixing plate 11, a base joint 20, a beam arm supporting plate 21, a beam arm 30, a screw rod 31, a first motor 32, a nut bracket 33, a synchronous belt 34, a motor bracket 35, a synchronous wheel 36, a movable arm 40, a second motor 41, a transmission rod 42, a gear 43, a positioning frame 44, a lifting arm 50, a rack 51, a sliding device 52, an execution joint 60, an upper joint 61, a first L-shaped bracket 62, a lower joint 63, a second L-shaped bracket 64, a trihedral bracket 65, a first clamping jaw 66 and a second clamping jaw 67.
Detailed Description
Preferred embodiments of the present application will be described in detail below with reference to fig. 1-5, so that the advantages and features of the present application can be more easily understood by those skilled in the art, and the scope of protection of the present application will be clearly and clearly defined, and these embodiments are only for illustrating the present invention and are not limited thereto.
The utility model provides a material transports arm is used for transporting of material on the not co-altitude different positions, is particularly suitable for transporting of the various materials of machining equipment, and this material transports arm has the nimble swift convenience of transporting the material action, has the characteristics that whole cost is low simultaneously. The robotic arm has six parts, a base 10, a base joint 20, a beam arm 30, a moveable arm 40, a lift arm 50, and an implement joint 60. A base joint 20 is fixedly installed on the base 10, and the base joint 20 performs a rotation and transportation operation on the base 10; a crossbeam arm 30 is fixedly arranged on the base joint 20, a movable arm 40 is arranged on the crossbeam arm 30, and the movable arm 40 and the lifting arm 50 execute a joint 60 to carry out front and back conveying actions on the crossbeam arm 30; the front end of the movable arm 40 is provided with a lifting arm 50, the lifting arm 50 carries out lifting and conveying actions by means of the movable arm 40, the lower end of the lifting arm 50 is provided with an execution joint 60, and the execution joint 60 is provided with an upper joint 61 and a lower joint 63 and is an execution end of the material conveying mechanical arm.
The specific scheme is as follows:
the base joint 20 is fixedly attached to a base upper fixing plate 11 provided in the base 10, and the base joint 20 is fixed to the base upper fixing plate 11 through the base upper fixing plate 11 to perform a rotation and transportation operation. The base joint 20 is fixedly provided with a cross beam arm 30, a cross beam arm support plate 21 is arranged between the base joint 20 and the cross beam arm 30, the cross beam arm support plate 21 is fixed with the base joint 20, the cross beam arm 30 is fixed on the cross beam arm support plate 21, and the fixed position of the cross beam arm support plate 21 is positioned at the rear end of the cross beam arm 30.
The beam arm 30 is provided with a screw rod 31, a first motor 32, a motor bracket 35 and a nut bracket 33, wherein two ends of the screw rod 31 are fixed at the front end and the rear end inside the beam arm 30, and the nut bracket 33 is arranged on the screw rod 31. The motor bracket 35 is fixedly connected with the motor I32, the nut bracket 33 and the movable arm 40, so that the motor I32, the nut bracket 33 and the movable arm are integrated into a whole, and the motor I32 is fixed on the motor bracket 35 to run. The nut bracket 33 is provided with a synchronous wheel 36, the synchronous wheel 36 is fixedly connected with the nut bracket 33 and sleeved on the screw rod 31, a synchronous belt 34 is arranged between the first motor 32 and the nut bracket 33, and the first motor 32 drives the synchronous wheel 36 and the nut bracket 33 through the synchronous belt 34. The nut bracket 33 is driven to move back and forth on the screw rod 31 and along the screw rod 31 under the operation of the first motor 32, and the driving of the first motor 32 realizes the back and forth conveying action of the movable arm 40 and the execution joint 60 of the lifting arm 50 on the beam arm 30.
The second motor 41, the transmission rod 42 and the gear 43 are arranged on the movable arm 40, the second motor 41 is installed at the rear end of the movable arm 40, the gear 43 is arranged at the front end of the movable arm 40 through the transmission rod 42, the second motor 41 is connected with the transmission rod 42, and the transmission rod 42 fixes the gear 43. The lifting arm 50 is provided with a rack 51, the rack 51 is matched with the gear 43, and the second motor 41 drives the gear 43 through the transmission rod 42 so as to drive the rack 51 to perform lifting movement, so that the lifting arm 50 performs lifting conveying movement together with the execution joint 60 by means of the movable arm 40. The movable arm 40 further has a positioning frame 44, the positioning frame 44 is located at the front end of the movable arm 40, a rack 51 and a gear 43 are arranged inside the positioning frame 44 in a matching manner, a sliding device 52 is arranged between the back of the lifting arm 50 and the positioning frame 44, and the arrangement of the sliding device 52 enables the lifting arm 50 to be lifted and lowered stably under the pushing of the gear 43.
The movable arm 40 is extended to operate at the front end of the beam arm 30 within the range where the nut bracket 33 operates the lead screw 31 (shown in fig. 2). In fig. 1 and 2, the positioning frame 44 of the movable arm 40 is located on the right side of the movable arm 40, so that the lifting arm 50 is vertically located on the right side of the movable arm 40 and the beam arm 30 as a whole, and when the movable arm 40 retracts the lifting arm 50 into the beam arm 30, the working range of the lifting arm 50 is expanded because the lifting arm 50 is located on the right side, which is a great improvement over the prior art. In this embodiment, the lifting arm 50 may be disposed on the left side of the movable arm 40 and the beam arm 30, and the technical effect is the same as that achieved when the lifting arm 50 is disposed on the right side.
An upper joint 61 and a lower joint 63 are installed at the lower end of the lifting arm 50, the upper joint 61 is installed and arranged on a first L-shaped support 62, the vertical end face of the first L-shaped support 62 is fixed on the lifting arm 50, the upper joint 61 is fixed on the horizontal end face of the first L-shaped support 62, the upper joint 61 extends out of the horizontal end face of the first L-shaped support 62 to be connected with and fixed with a second L-shaped support 64, the lower joint 63 is installed and arranged on the second L-shaped support 64, a lower joint 63 is fixed on the vertical end face of the second L-shaped support 64, the vertical end face of the lower joint 63 extending out of the second L-shaped support 64 is connected with the vertical end face of a trihedral support 65, and a first clamping jaw 66 and a second clamping jaw 67 are installed on the other two end faces of the trihedral support 65 respectively. The lifting and transporting action of the lifting arm 50 drives the upper joint 61 and the lower joint 63 to work together, and the arrangement of the upper joint 61 and the lower joint 63 enables the material transporting mechanical arm to be wide in clamping angle and more flexible in clamping, and is suitable for material transportation under different complex conditions.
In addition, the base joint 20, the first motor 32 and the second motor 41 of the present application preferably employ servo motors.
The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.
Claims (10)
1. A material conveying mechanical arm is characterized by comprising a base (10), a base joint (20), a beam arm (30), a movable arm (40), a lifting arm (50) and an execution joint (60), wherein the base joint (20) is fixedly arranged on the base (10); a crossbeam arm (30) is fixedly arranged on the base joint (20), a movable arm (40) is arranged on the crossbeam arm (30), and the movable arm (40) is provided with a positioning frame (44) which is positioned on the right side surface or the left side surface of the movable arm (40) and the crossbeam arm (30); the front end of the movable arm (40) is provided with a lifting arm (50), and the lower end of the lifting arm (50) is provided with an execution joint (60).
2. A material handling arm as claimed in claim 1, characterised in that the base (10) has a base upper mounting plate (11) to which the base joint (20) is fixedly attached, the base joint (20) passing through the base upper mounting plate (11) and being fixed to the base upper mounting plate (11).
3. A material handling robot as claimed in claim 1, characterised in that a beam arm (30) is mounted and secured to the base joint (20), a beam arm support plate (21) is provided between the base joint (20) and the beam arm (30), and the beam arm (30) is secured to the beam arm support plate (21).
4. A material handling robot arm as claimed in claim 3, characterised in that the beam arm support plate (21) is fixed in position at the rear end of the beam arm (30).
5. The material conveying mechanical arm as claimed in claim 1, wherein the cross beam arm (30) is provided with a screw rod (31), a first motor (32), a motor support (35) and a nut support (33), two ends of the screw rod (31) are fixed at the front end and the rear end inside the cross beam arm (30), the nut support (33) is arranged on the screw rod (31), the motor support (35) is fixedly connected with the first motor (32), the nut support (33) and the movable arm (40), the nut support (33) is provided with a synchronizing wheel (36), the synchronizing wheel (36) is fixedly connected with the nut support (33) and sleeved on the screw rod (31), a synchronous belt (34) is arranged between the first motor (32) and the nut support (33), and the first motor (32) drives the synchronizing wheel (36) and the nut support (33) through the synchronous belt (34).
6. The material conveying mechanical arm as claimed in claim 1, wherein a second motor (41), a transmission rod (42) and a gear (43) are arranged on the movable arm (40), the second motor (41) is installed at the rear end of the movable arm (40), the gear (43) is arranged at the front end of the movable arm (40) through the transmission rod (42), the second motor (41) is connected with the transmission rod (42), the transmission rod (42) fixes the gear (43), the lifting arm (50) is provided with a rack (51), and the rack (51) is matched with the gear (43).
7. A material handling robot arm as claimed in claim 6, characterised in that the moveable arm (40) further comprises a positioning rack (44), the positioning rack (44) is located at the front end of the moveable arm (40), a rack (51) and a gear (43) are arranged inside the positioning rack (44) in a matching manner, and a sliding device (52) is arranged between the back of the lifting arm (50) and the positioning rack (44).
8. A material handling robot as claimed in claim 1, characterised in that the lower end of the lifting arm (50) is provided with an upper joint (61) and a lower joint (63), the upper joint (61) being mounted on a first L-shaped bracket (62) and the lower joint (63) being mounted on a second L-shaped bracket (64).
9. A material conveying mechanical arm as claimed in claim 8, characterized in that the vertical end face of the first L-shaped support (62) is fixed on the lifting arm (50), the upper joint (61) extends out of the first L-shaped support (62) and is fixed on the horizontal end face of the second L-shaped support (64), the vertical end face of the lower joint (63) extending out of the second L-shaped support (64) is connected with the vertical end face of a trihedral support (65), and the other two end faces of the trihedral support (65) are respectively provided with a first clamping jaw (66) and a second clamping jaw (67).
10. A material handling robot arm as claimed in claim 1, 5 or 6, characterised in that the base joint (20), the first motor (32) and the second motor (41) are preferably servo motors.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121112297.2U CN214924430U (en) | 2021-05-23 | 2021-05-23 | Material transports arm |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121112297.2U CN214924430U (en) | 2021-05-23 | 2021-05-23 | Material transports arm |
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Publication Number | Publication Date |
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CN214924430U true CN214924430U (en) | 2021-11-30 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202121112297.2U Active CN214924430U (en) | 2021-05-23 | 2021-05-23 | Material transports arm |
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CN (1) | CN214924430U (en) |
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2021
- 2021-05-23 CN CN202121112297.2U patent/CN214924430U/en active Active
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