CN215966119U - Clamping driving assembly of forging manipulator - Google Patents

Abstract

The utility model relates to a clamping driving assembly of a forging manipulator, which comprises a mounting seat, a translation table, a linear driving device, an opening and closing driving device and an opening and closing driving shaft, wherein the translation table is driven to move by the linear driving device, the mounting seat is arranged on the translation table, a clamp, the opening and closing driving shaft and the opening and closing driving device are arranged on the mounting seat, the rear end of the opening and closing driving shaft is connected with the opening and closing driving device through a connecting seat, the front end of the opening and closing driving shaft is respectively connected with two clamping arms of the clamp through two connecting rod mechanisms, an angle sensor is arranged at the end part of a hinged shaft at the rear end of each clamping arm, and a displacement sensor is arranged on the connecting seat. The utility model can accurately adjust the position of the clamp and accurately control the clamping force according to the requirement, thereby ensuring the processing quality.

Description

Clamping driving assembly of forging manipulator

Technical Field

The utility model relates to the field of forging equipment, in particular to a clamping driving assembly of a forging manipulator.

Background

The forging manipulator is important equipment for realizing forging automation in a forging workshop, is usually matched with a forging hydraulic press for use, and can improve the quality and the production efficiency of forgings. The forging manipulator utilizes clamp centre gripping forging usually, and the clamp of forging manipulator generally adopts single structure of keeping silent at present, and the clamp application range of this kind of structure has very big limit, often can only the forging of centre gripping a form, during the in-service use, often need change the clamp according to forging product shape, and it is loaded down with trivial details relatively to change the clamp process, and is more consuming time, and this production efficiency that can influence the enterprise.

Along with the technical development, some multi-functional pincers have appeared among the prior art, and it usually includes a plurality of clamping parts, has just disclosed a forging manipulator multi-functional clamp like in the chinese utility model patent of bulletin number CN2062661U, and its binding clip body includes that big vice jaw, little vice jaw and axle class are kept silent, like disclosing a forging clamping jaw like in the chinese utility model of authorized bulletin number CN204620992U again, it includes a plurality of clamping parts equally.

In the prior art, the position of the clamp is usually adjusted by using the integral movement of the manipulator, but the accuracy of the adjustment mode is not high, particularly for the multifunctional clamp, the length of the multifunctional clamp is longer than that of a common clamp because the multifunctional clamp comprises a plurality of clamping parts, but the distance between different clamping parts of the clamp is smaller, the integral movement adjustment of the manipulator wastes time and labor, and the efficiency is lower. In addition, the clamping force requirements of workpieces with different shapes and sizes can be different, particularly, the multifunctional clamp has larger difference of clamping objects, but in the prior art, an operator can control the clamping force only by experience and feeling, so that the workpiece is easily damaged due to overlarge clamping force, or the workpiece is not clamped due to too small clamping force.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a clamping driving assembly of a forging manipulator, which can accurately adjust the position of a clamp and accurately control the clamping force according to requirements, and ensure the processing quality.

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

the utility model provides a forge manipulator centre gripping drive assembly, includes mount pad, translation platform, linear drive device, opens and closes drive arrangement and opens and close the drive shaft, and wherein the translation platform passes through linear drive device drive and removes, and the mount pad is located on the translation bench, clamp, open and close the drive shaft and open and close drive arrangement and all locate on the mount pad, and open and close the drive shaft rear end through a connecting seat with open and close drive arrangement and link to each other, the front end through two link mechanism respectively with two centre gripping arms of clamp link to each other, the hinge tip of centre gripping arm rear end is equipped with angle sensor, be equipped with displacement sensor on the connecting seat.

The clamp comprises a connecting disc, a fixed arm and two clamping arms, wherein the fixed arm is fixedly arranged on the connecting disc, the rear ends of the two clamping arms are respectively hinged with the front ends of the corresponding side fixed arms, an opening and closing driving shaft penetrates through the connecting disc, the clamping arms and the hinge shafts corresponding to the fixed arms are connected with the ends of the opening and closing driving shaft through corresponding link mechanisms, and the end parts of the hinge shafts of the clamping arms and the fixed arms are provided with angle sensors.

The connecting rod mechanism comprises a first connecting rod and a second connecting rod, a driving plate is arranged at the front end of the opening and closing driving shaft, one end of the first connecting rod is hinged to the driving plate, the other end of the first connecting rod is hinged to one end of the second connecting rod, and the other end of the second connecting rod is hinged to a hinge shaft of the corresponding side clamping arm and the hinge shaft of the fixing arm.

The linear driving device comprises a motor and a screw and nut assembly, wherein the screw is driven to rotate by the motor, and the nut is sleeved on the screw and fixedly connected with the translation table.

The utility model has the advantages and positive effects that:

1. the mounting seat of the utility model drives the adjusting position through the translation table, and then accurately adjusts the position of the clamp, thereby meeting different clamping requirements, in particular aiming at the condition of a multifunctional clamp.

2. In the utility model, the angle sensors are arranged at the end parts of the hinged shafts of the clamping arm and the fixed arm to detect the corner increment of the clamping arm in real time, when the corner increment is zero, the clamping arm is shown to clamp a forge piece fully, the opening and closing driving device automatically stops at the moment, so that the situation that the clamping force is overlarge or the clamping is not full is avoided, in addition, the connecting seat can be provided with the displacement sensor for detecting the distance between the connecting seat and the opening and closing driving device in real time, and thus when the next same forge piece is clamped, an equipment system can control the opening and closing driving device to automatically drive the connecting seat to move for the same displacement distance to complete the clamping, and the production efficiency is improved.

Drawings

Figure 1 is a schematic structural view of the present invention,

figure 2 is a schematic view of a clamp according to one application example of the utility model,

figure 3 is a front view of the pliers of figure 2,

figure 4 is a first view of the clamp of figure 2 in a clamped condition,

figure 5 is a second schematic view of the clamped state of the pliers of figure 2,

fig. 6 is a third schematic view of the clamping state of the clamp in fig. 2.

The device comprises a base, a first clamping part, a second clamping part, a linear driving device, a translation table, a driving device, a connecting disc, a driving plate, a first connecting rod, a second connecting rod, a clamping arm, a fixing arm, a mounting seat, a connecting seat and an angle sensor, wherein the first clamping part is 1, the second clamping part is 2, the first clamping part is 3, the linear driving device is 4, the translation table is 5, the opening and closing driving device is 6, the driving shaft is 7, the rotating sleeve is 8, the gear is 9, the connecting disc is 10, the driving plate is 11, the first connecting rod is 12, the second connecting rod is 13, the clamping arm is 14, the fixing arm is 15, the mounting seat is 16, the connecting seat is 17, and the angle sensor is 18.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the utility model comprises a mounting base 16, a translation stage 5, a linear driving device 4, an opening and closing driving device 6 and an opening and closing driving shaft 7, wherein the translation stage 5 is driven to move by the linear driving device 4, the mounting base 16 is arranged on the translation stage 5, a clamp, the opening and closing driving shaft 7 and the opening and closing driving device 6 are all arranged on the mounting base 16, the rear end of the opening and closing driving shaft 7 is connected with the opening and closing driving device 6 through a connecting base 17, the front end of the opening and closing driving shaft is respectively connected with two clamping arms 14 of the clamp through two link mechanisms, the opening and closing driving shaft 7 is driven to move back and forth through the opening and closing driving device 6, the clamp is driven to open and close through the link mechanisms, and the translation stage 5 is driven to move by the linear driving device 4 to accurately adjust the position of the clamp. The translation table 5 and the linear driving device 4 are both installed on a lifting clamp frame of the manipulator, and the translation table 5 is connected with the lifting clamp frame in a sliding mode.

As shown in fig. 1, in this embodiment, the clamp includes a connecting plate 10, a fixing arm 15 and a clamping arm 14, wherein the fixing arm 15 is fixedly disposed on the connecting plate 10, rear ends of the two clamping arms 14 are respectively hinged to front ends of the fixing arms 15 on corresponding sides, an opening and closing driving shaft 7 penetrates through the connecting plate 10, and the clamping arm 14 and a hinge shaft of the corresponding fixing arm 15 are connected to a head end of the opening and closing driving shaft 7 through a corresponding link mechanism.

As shown in fig. 1, the end portions of the hinge shafts of the clamping arm 14 and the fixed arm 15 are provided with angle sensors 18, flexible pads for preventing scratching the surface of the forged piece are arranged in each groove of the clamping arm 14 and in the clamping blocks, the flexible pads are known in the art, during the clamping process, as the clamping arm 14 is closed, the angle sensors 18 detect the rotation angle increment of the clamping arm 14 in real time, when the rotation angle increment is not zero, it indicates that the clamping arm 14 is not yet in contact with the forged piece, or only the flexible pads in the clamping arm 14 are in contact with the forged piece, only when the rotation angle increment is zero within a system set time interval, it indicates that the clamping arm 14 has sufficiently clamped the forged piece, at this time, the opening and closing driving device 6 automatically stops, thereby avoiding the situations of too large or too small clamping force and the like, and in addition, the motion situation of the clamping arm 14 can also be judged according to the rotation angle increment of the angle sensors 18 displayed by the equipment system, when the variation range of the increment of the corner in the set time interval of the system is large, the clamping arm 14 is not in contact with the forged piece, and when the variation range of the increment of the corner is small, the flexible pad is in contact with the forged piece. The angle sensor 18 is well known in the art and is a commercially available product.

In addition can set up displacement sensor on connecting seat 17 and be used for its and open and close the distance between drive arrangement 6 in real time detection, also real-time detection opens and closes the distance of drive arrangement 6, when equipment first operation, when angle sensor 18 detects that the corner increment is zero, the equipment system can take notes displacement sensor detection value this moment, like this when centre gripping next the same forging, the equipment system is steerable opens and closes drive arrangement 6 automatic drive connecting seat 17 and remove same displacement distance and accomplish the centre gripping, in order to improve production efficiency, angle sensor 18 can assist the cooperation and judge whether to press from both sides tightly this moment. The displacement sensor is well known in the art and is a commercially available product.

As shown in fig. 1, in this embodiment, the link mechanism includes a first link 12 and a second link 13, a driving plate 11 is disposed at a front end of the opening/closing driving shaft 7, one end of the first link 12 is hinged to the driving plate 11, the other end of the first link 12 is hinged to one end of the second link 13, and the other end of the second link 13 is hinged to a hinge shaft of the corresponding side clamping arm 14 and the fixed arm 15.

In this embodiment, in order to ensure that the translation stage 5 is accurately controlled to move, the linear driving device 4 may adopt a form of a motor and a screw nut, wherein the screw nut is driven to rotate by the motor, and the screw nut is sleeved on the screw nut and is fixedly connected with the translation stage 5. The linear driving device 4 can also select devices such as an air cylinder, an oil cylinder, a linear motor and the like according to actual needs.

In this embodiment, the opening and closing driving device 6 may adopt a cylinder, an oil cylinder, a linear motor, and the like.

The clamp can be arranged on a forging manipulator with a clamp rotating function, and can also be directly arranged on the forging manipulator to realize clamp opening, closing and clamping. When the clamp rotating device is arranged on an operating machine with a clamp rotating function, as shown in fig. 1, a rotating sleeve 8 is arranged on an installation seat 16, the rotating sleeve 8 is rotatably arranged on the installation seat 16 through a bearing support, the front end of the rotating sleeve 8 is fixedly connected with a connecting disc 10, a gear 9 is arranged on the rotating sleeve 8, the gear 9 is meshed with another gear, the other gear is driven to rotate through a motor arranged on the installation seat 16, so that the rotating sleeve 8 rotates, the rotating sleeve 8 drives the connecting disc 10 to rotate, so that the clamp rotates, the rear end of an opening and closing driving shaft 7 is rotatably arranged in the connecting seat 17 through the bearing support, and therefore, the opening and closing driving shaft 7 can rotate together with the clamp in the clamp rotating process.

The working principle of the utility model is as follows:

as shown in fig. 1, the utility model can be applied to a conventional clamp, and can also be applied to a multifunctional clamp as shown in fig. 2 to 6, the multifunctional clamp includes a first clamping portion 3, a second clamping portion 2 and a third clamping portion 1, wherein as shown in fig. 5, the thickness of the second clamping portion 2 can be embedded into a clamping groove of a die, so that die clamping can be realized, as shown in fig. 6, the first clamping portion 3 is a conventional clamping portion, and can clamp a circular cake-shaped forged piece or a vertical cylindrical forged piece, as shown in fig. 4, the third clamping portion 1 can clamp one end of a long-axis forged piece.

When the multifunctional clamp works, the mounting seat 16 drives the adjusting position through the translation table 5, so that the position of the clamp is accurately adjusted, or different clamping parts of the multifunctional clamp are adjusted, and after the position of the clamping part on the clamp is determined, the opening and closing driving shaft 7 moves and drives the clamping arms 14 on the two sides to be closed through the connecting rod mechanism, so that the corresponding clamping part on the clamp clamps a forge piece or a die.

Because the clamping forces required by workpieces with different volume shapes are different, particularly the clamping objects of the multifunctional clamp shown in figures 2-6 are also different greatly, the clamping force is controlled by utilizing the angle sensor 18 in real time, as shown in figure 1, the angle sensor 18 is arranged at the end parts of the hinged shafts of the clamping arm 14 and the fixed arm 15 to detect the rotation angle increment of the clamping arm 14 in real time, when the rotation angle increment is zero, the clamping arm 14 clamps a forged piece fully, the opening and closing driving device 6 stops automatically at the moment, so that the situation that the clamping force is overlarge or the clamping is not tight is avoided, in addition, a displacement sensor can be arranged on the connecting seat 17 to detect the distance between the connecting seat 17 and the opening and closing driving device 6 in real time, so that when the next same forged piece is clamped, the equipment system can control the opening and closing driving device 6 to automatically drive the connecting seat 17 to move the same displacement distance to complete the clamping, the production efficiency is improved.

The clamp can be arranged on a forging manipulator with a clamp rotating function, and can also be directly arranged on the forging manipulator to realize clamp opening, closing and clamping.

Claims (4)

1. The utility model provides a forge manipulator centre gripping drive assembly which characterized in that: including mount pad (16), translation platform (5), linear drive device (4), open and close drive arrangement (6) and open and close drive shaft (7), wherein translation platform (5) remove through linear drive device (4) drive, and mount pad (16) are located on translation platform (5), clamp, open and close drive shaft (7) and open and close drive arrangement (6) and all locate on mount pad (16), and open and close drive shaft (7) rear end through a connecting seat (17) with open and close drive arrangement (6) and link to each other, the front end through two link mechanism respectively with two centre gripping arms (14) of clamp link to each other, the hinge tip of centre gripping arm (14) rear end is equipped with angle sensor (18), be equipped with displacement sensor on connecting seat (17).

2. The forging manipulator clamp drive assembly of claim 1, wherein: the clamp comprises a connecting disc (10), a fixing arm (15) and a clamping arm (14), wherein the fixing arm (15) is fixedly arranged on the connecting disc (10), the rear ends of the two clamping arms (14) are hinged to the front end of the corresponding side fixing arm (15) respectively, an opening and closing driving shaft (7) penetrates through the connecting disc (10), the hinging positions of the clamping arm (14) and the corresponding fixing arm (15) are connected with the head end of the opening and closing driving shaft (7) through corresponding connecting rod mechanisms, and the hinged shaft end parts of the clamping arm (14) and the fixing arm (15) are provided with angle sensors (18).

3. The forging manipulator clamp drive assembly of claim 2, wherein: the connecting rod mechanism comprises a first connecting rod (12) and a second connecting rod (13), a driving plate (11) is arranged at the front end of the opening and closing driving shaft (7), one end of the first connecting rod (12) is hinged to the driving plate (11), the other end of the first connecting rod is hinged to one end of the second connecting rod (13), and the other end of the second connecting rod (13) is hinged to the hinged position of the corresponding side clamping arm (14) and the fixing arm (15).

4. The forging manipulator clamp drive assembly of claim 1, wherein: the linear driving device (4) comprises a motor and a screw and nut assembly, wherein the screw is driven to rotate by the motor, and the nut is sleeved on the screw and fixedly connected with the translation table (5).

Images