CN204934462U - A kind of forging feeding robot - Google Patents

Abstract

The utility model relates to a kind of forging feeding robot, comprises rotating base, turning arm, swing arm, swinging axle and clamping device; Turning arm is arranged on rotating base, rotating base is provided with two hydraulic dampers, the rotational angle of turning arm is limited in by hydraulic damper ± 145 ° between, the top of turning arm is provided with lift cylinder, and turning arm rear end is fixed on lift cylinder; Be provided with vane-type pneumatic rotary actuator in swing arm, swinging axle is located in swing arm, and swinging axle one end connects vane-type pneumatic rotary actuator and controls by vane-type pneumatic rotary actuator, and the swinging axle other end connects clamping device.Rotating base arranges hydraulic damper the slewing area of turning arm is limited in the scope of positive and negative 145 °, make the rotation of turning arm very fast, and can play the effect of buffering, effectively prevent machine breakdown.Adopt the mode of mechanical grip to carry material simultaneously, can adapt to the requirement of various shape material handling, security performance is also very good.

Description

A kind of forging feeding robot

Technical field

The utility model relates to a kind of robot, particularly relates to a kind of forging feeding robot.

Background technology

In forging industry, adopt operative employee's hand clamp material that processing materials is circulated between each procedure and equipment for a long time always.Due to the characteristic of forging industry, processing materials is all generally the processing materials of high temp objects, operative employee's hand clamp high temperature, not only also has the danger be burned during labour intensity Datong District.

Application number be 201310064058.8 a kind of forging industry that application discloses to select materials clamping transportation industrial robot, it is characterized in that: it comprises rotating base, large arm, forearm, suction clamping device, large arm driving mechanism and forearm driving mechanism; Described large arm is arranged on rotating base, and described forearm is arranged on the head of described large arm, and described suction clamping device is arranged on described forearm; Described large arm is driven by large arm driving mechanism and swings with large arm power transmission shaft, and described forearm is driven by forearm driving mechanism and swings with forearm power transmission shaft.This invention, by being arranged on large arm on rotating base and being arranged on the forearm in large arm, can realize the telescopic oscillating of large arm and forearm, and automatic material selecting holding workpiece, to diathermic furnace entrance, have that the radius of clean-up is large, operating efficiency is high, low noise advantages.Save a large amount of artificial.And this invention structure is simple, reliable operation, manufacturing cost and maintenance cost are also lower.

But bar-shaped material can only be carried by this robot on the one hand; This robot does not arrange brake apparatus and buffer unit on rotating base on the other hand, thus must be slowly when rotating, simultaneously due to rotating base not having stopping means, in rotation process, very easily turn over the situation of head, and large arm not easily stops operating by effect of inertia; Moreover owing to adopting magnetic absorption to carry material, when temperature of charge is too high, the effect of magnetic absorption is poor, easily comes off.

Utility model content

In order to solve above-mentioned technical problem, the purpose of this utility model is to provide one can carry various shape material, can quick rotation, has buffering and limit function, adopts mechanical grip means to carry the good forging feeding robot of the security performance of material.

In order to realize above-mentioned object, the utility model have employed following technical scheme:

A kind of forging feeding robot, comprises rotating base, turning arm, swing arm, swinging axle and clamping device, described turning arm is vertically arranged on rotating base and also can rotates in horizontal plane with rotating base, described rotating base is also provided with two hydraulic dampers, two hydraulic dampers both sides in turning arm circumference rotation process respectively and bottom turning arm offset the rotational angle of turning arm is limited in ± 145 ° between, the top of described turning arm is provided with the lift cylinder axially parallel with turning arm, lifting guide pillar, lifting shaft and two ball bearing guide bushings, lifting guide pillar and lifting shaft are separately positioned in two ball bearing guide bushings, described lifting guide pillar and lifting shaft are positioned at lift cylinder both sides, lifting guide pillar, lift cylinder and lifting shaft are arranged along the length direction of swing arm, lift cylinder controls lifting shaft thus drives swing arm to be elevated in the scope of 200mm along lifting guide pillar, swing arm rear end is fixed on lifting guide pillar and lifting shaft, in 90 ° of angles between swing arm and turning arm, be provided with vane-type pneumatic rotary actuator in described swing arm, swinging axle is located in swing arm, and swinging axle one end connects vane-type pneumatic rotary actuator and controls swing in the scope of horizontal vertical face ± 45 ° by vane-type pneumatic rotary actuator, swinging axle other end connection clamping device, described clamping device comprises clamping cylinder and the two shift fork swing arms by clamping cylinder Synchronization Control, and the front end of described pair of shift fork swing arm is provided with resistant to elevated temperatures jaw, and the range of movement of two shift fork swing arm is between 10 ~ 30 °.

As preferably, the bottom of described rotating base is provided with the ac adjustable speed motor for driving rotating base to rotate.

As preferably, in described turning arm, be provided with the MCU digitial controller of controlled forge process feeding robot entire exercise.

As preferably, described pair of shift fork swing arm is provided with U-type groove, and jaw to be folded in U-type groove and to be fixed by screw.

As preferably, the both sides of described swing arm shell evenly offer multiple air-vent.

Compared with prior art, the beneficial effects of the utility model are: 1. on rotating base, arrange hydraulic damper by the angular definitions of turning arm in the scope of positive and negative 145 °, make the rotation of turning arm can be very quick, hydraulic damper also will play the effect of buffering, guarantee that commutation is stable, effectively prevent machine breakdown; 2. adopt the mode of mechanical grip to carry material, can adapt to the requirement of various shape material handling, security performance is also very good.

Accompanying drawing explanation

Fig. 1 is the structural representation of forging and stamping feeding robot.

Fig. 2 is the top view of forging and stamping feeding robot.

Number in the figure is as follows:

Rotating base 1, turning arm 2, swing arm 3, swinging axle 4, clamping device 5, hydraulic damper 6, lift cylinder 7, vane-type pneumatic rotary actuator 8, lifting guide pillar 9, lifting shaft 10, MCU digitial controller 11, ball bearing guide bushing 12, clamping cylinder 13, two shift fork swing arm 14, jaw 15, ac adjustable speed motor 16, air-vent 17.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is made a detailed explanation.

Embodiment:

In the present embodiment, position when turning arm 2 being turned to middle position is defined as 0 ° of Angle Position of turning arm 2; Position when lifting shaft 10 being positioned at lowest part is defined as lower limit, i.e. 0mm place; The initial position of swinging axle 4 is defined as 0 ° of Angle Position, namely clamping device 5 straight down time position residing for swinging axle; The original state of two shift fork swing arm 14 is open mode, and namely two shift fork swing arm 14 is 30 ° of angles with vertical plane.

One forging feeding robot as shown in Fig. 1 ~ Fig. 2, comprises rotating base 1, turning arm 2, swing arm 3, swinging axle 4 and clamping device 5; Turning arm 2 is vertically arranged on rotating base 1 and also can rotates in horizontal plane with rotating base 1, rotating base 1 is also provided with two hydraulic dampers, 6, two both sides of hydraulic damper 6 in the circumferential rotation process of turning arm 2 respectively and bottom turning arm 2 to offset thus the rotational angle of turning arm 2 is limited in ± 145 ° between.Also be provided with the ac adjustable speed motor 16 driving rotating base 1 to rotate in rotating base 1, in turning arm 2, be provided with the MCU digitial controller 11 of controlled forge process feeding robot entire exercise.The top of turning arm 2 is provided with lift cylinder 7, lifting guide pillar 9, lifting shaft 10 and two ball bearing guide bushings 12, and lifting guide pillar 9 and lifting shaft 10 are separately positioned in two ball bearing guide bushings 12.Described lifting guide pillar 9 and lifting shaft 10 are positioned at lift cylinder 7 both sides, lifting guide pillar 9, lift cylinder 7 and lifting shaft 10 are arranged along the length direction of turning arm 2, and lift cylinder 7 controls lifting shaft 10 thus drives swing arm 3 to be elevated in the scope of upper and lower 200mm along lifting guide pillar 9.Ball bearing guide bushing 12 matches with lifting guide pillar 9 and lifting shaft 10 respectively, drives accurately and reposefully swing arm 3 to move up and down.Swing arm 3 rear end is fixed on lifting guide pillar 9 and lifting shaft 10, in 90 ° of angles between swing arm and turning arm; Vane-type pneumatic rotary actuator 8 is provided with in described swing arm 3, swinging axle 4 is located in swing arm 3, swinging axle 4 one end connects vane-type pneumatic rotary actuator 8 and controls to swing in the scope of horizontal vertical face ± 45 ° by vane-type pneumatic rotary actuator 8, swinging axle 4 other end connection clamping device 5.Described clamping device 5 comprises clamping cylinder 13 and the two shift fork swing arms 14 by clamping cylinder 13 Synchronization Control, and the front end of described pair of shift fork swing arm 14 is provided with resistant to elevated temperatures jaw 15, and the range of movement of two shift fork swing arm is between 10 ~ 30 °.Two shift fork swing arm 14 is provided with U-type groove, and jaw 15 to be folded in U-type groove and to be completed by screw fixing.Rotating base 1 arranges hydraulic damper 6 by the angular definitions of turning arm 2 in the scope of ± 145 °, make the rotation of turning arm 2 can be very quick, hydraulic damper 6 also will play the effect of buffering, effectively prevent machine breakdown.Adopt the mode of mechanical grip to carry material simultaneously, can adapt to the requirement of various shape material handling, security performance is also very good.

The shell of swing arm 3 evenly offers multiple air-vent 17, is conducive to the discharge of heat, reduce temperature, prevent over-heat inside.

In actual mechanical process, ac adjustable speed motor 16 under the control of MCU digitial controller 11, drive rotating base 1 to rotate thus driven rotary arm 2 rotates, and stops when turning arm 2 turns to appropriate position.Now, lift cylinder 7 controls lifting shaft 10 and drives swing arm 3 to be elevated in the distance of 200mm, lifting shaft 10 stop motion when arriving optimum position.Now, vane-type pneumatic rotary actuator 8 controls swinging axle 4 and swings in the scope of horizontal vertical face ± 45 °, stops swinging when swinging axle 4 is rocked to the gripping material place that clamping device 5 can be comfortable.Now, the two shift fork swing arm 14 of clamping cylinder 13 Synchronization Control is movable in the scope in 10 ~ 30 °, horizontal vertical face, and after two jaws 15 contact with material, clamping cylinder 13 controls two shift fork swing arm 14 and draws in thus material is firmly clamped by jaw.After this, by the acting in conjunction of rotary cylinder 1, turning arm 2, swing arm 3, swinging axle 4 and clamping device 5, material clamping is transported to machining position, completes next step processing tasks.

Above content described in this description is only to the explanation of the utility model example.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment; only otherwise depart from the content of the utility model description or surmount this scope as defined in the claims, protection domain of the present utility model all should be belonged to.

Claims (5)

1. forge a feeding robot, it is characterized in that: comprise rotating base (1), turning arm (2), swing arm (3), swinging axle (4) and clamping device (5), described turning arm (2) is vertically arranged on rotating base (1) and above also can rotates in horizontal plane with rotating base (1), described rotating base (1) is also provided with two hydraulic dampers (6), two hydraulic dampers (6) in turning arm (2) circumferential rotation process respectively and the both sides of turning arm (2) bottom offset the rotational angle of turning arm (2) is limited in ± 145 ° between, the top of described turning arm (2) is provided with the lift cylinder (7) axially parallel with turning arm (2), lifting guide pillar (9), lifting shaft (10) and two ball bearing guide bushings (12), lifting guide pillar (9) and lifting shaft (10) are separately positioned in two ball bearing guide bushings (12), described lifting guide pillar (9) and lifting shaft (10) are positioned at lift cylinder (7) both sides, lifting guide pillar (9), lift cylinder (7) and lifting shaft (10) are arranged along the length direction of swing arm (3), lift cylinder (7) controls lifting shaft (10) thus drives swing arm (3) to be elevated in the scope of 200mm along lifting guide pillar (9), swing arm (3) rear end is fixed on lifting guide pillar (9) and lifting shaft (10), in 90 ° of angles between swing arm (3) and turning arm (2), vane-type pneumatic rotary actuator (8) is provided with in described swing arm (3), swinging axle (4) is located in swing arm (3), swinging axle (4) one end connects vane-type pneumatic rotary actuator (8) and controls to swing in the scope of horizontal vertical face ± 45 ° by vane-type pneumatic rotary actuator (8), swinging axle (4) other end connection clamping device (5), described clamping device (5) comprises clamping cylinder (13) and the two shift fork swing arms (14) by clamping cylinder (13) Synchronization Control, the front end of described pair of shift fork swing arm (14) is provided with resistant to elevated temperatures jaw (15), and the range of movement of two shift fork swing arm (14) is between 10 ~ 30 °.

2. one forging feeding robot according to claim 1, is characterized in that: the bottom of described rotating base (1) is provided with the ac adjustable speed motor (16) for driving rotating base (1) to rotate.

3. one forging feeding robot according to claim 1 and 2, is characterized in that: the MCU digitial controller (11) being provided with controlled forge process feeding robot entire exercise in described turning arm (2).

4. one forging feeding robot according to claim 3, is characterized in that: described pair of shift fork swing arm (14) is provided with U-type groove, and jaw (15) to be folded in U-type groove and to be fixed by screw.

5. one forging feeding robot according to claim 4, is characterized in that: the both sides of described swing arm (3) shell evenly offer multiple air-vent (17).