CN104828546A - Rotary workstation - Google Patents

Abstract

The invention discloses a rotary workstation. The rotary workstation comprises a supporting frame and a conveying belt, wherein the supporting frame comprises a supporting platform and four supporting columns which are used for supporting the supporting platform and are distributed in a rectangular form; the conveying belt is arranged below the supporting platform and positioned between the two opposite supporting columns; a poking device further comprises a power source, a speed reducer and a rotating device which are arranged on the supporting platform; the power source is fixedly arranged right above the speed reducer; the speed reducer is provided with a camshaft; the camshaft rotatably penetrates through the supporting platform and drives the rotating device connected therewith to rotate; the rotating device comprises at least one rotating arm and is close to the conveying belt, and the tail end of the rotating arm on the rotating device can extend to the first side edge of the conveying belt; the rotating arm pokes a workpiece positioned on the conveying belt to a workpiece moving target position in the rotating process. According to the rotary workstation, the whole conveying and poking process of the workpiece can be automatically controlled, and a great number of manpower and material resources are saved for an enterprise.

Description

Rotary work station

Technical field

The present invention relates to mechanical field, be specifically related to a kind of rotary work station.

Background technology

Workpiece striking gear is the device for transmitting article, minimizing manual labor that field of mechanical technique often uses, existing workpiece striking gear comprises motor, transmission shaft and a load-transfer device be connected on transmission shaft, is applicable to horizontal transmission or highly shorter transmission up and down.Personnel, equipment, logistics can be carried out during the use of conveyor line comprehensively effectively utilizing, in a organized way, planned, have a target carry out each unit balanced production, in activity in production, workpiece is generally delivered to next station by conveying pipeline, completes the processing of each operation successively.Generally in transmission course of conveying, be all often that workman carries out workpiece voluntarily and stirs, transports and stack, this adds the labor content of workman undoubtedly, is unfavorable for that enterprise realizes automated production.

Summary of the invention

In view of the defect that above-mentioned prior art exists, the object of the invention is to propose a kind of rotary work station, its object is to: realize workpiece conveying, stir whole-course automation control, for enterprise saves a large amount of manpower and materials.

Object of the present invention, will be achieved by the following technical programs:

Rotary work station, it is characterized in that: comprise bracing frame and load-transfer device, support frame as described above comprises support platform and the pillar stiffener for four orthogonal distributions supporting described support platform, described load-transfer device be located at described support platform below and between relative two pillar stiffeners; Described striking gear also comprises the propulsion source, reductor, the wheel word that are arranged in described support platform, described propulsion source is fixedly arranged on directly over described reductor, described reductor has a convex axle, and described convex axle runs through described support platform rotationally and drives connected described wheel word to rotate; Described wheel word comprises at least one swivel arm, be close between described wheel word and described load-transfer device and arrange, and the end of described swivel arm on it can extend to the first side of described load-transfer device, the workpiece be positioned on described belt conveyor is toggled it to workpiece movable target location by described swivel arm in the process of rotating.

Preferably, also comprise induction installation, on the bottom surface that described induction installation is arranged at described support platform and whether the swivel arm that can detect on described load-transfer device arrives assigned address.

Preferably, described induction installation is located at directly over described load-transfer device.

Preferably, described induction installation is infrared pickoff.

Preferably, described propulsion source is motor or air motor.

Preferably, described wheel word comprises four described swivel arms, is cruciform construction, is extended to four direction by the attachment point between described wheel word and described convex axle, and the angle between described swivel arm is 90 °.

Preferably, described wheel word comprises two described swivel arms, and be coaxial yi word pattern structure, the attachment point between two relatively described wheel words of described swivel arm and described convex axle is symmetrical.

Preferably, described wheel word comprises three described swivel arms, is triangular structure, and described swivel arm is 120 ° by angle centered by the attachment point between described wheel word and described convex axle.

The present invention, its outstanding effect is:

The present invention arranges wheel word by square on the conveyor belt, and treating that shifting part moves to coil pickup position striking gear and automatically will treat that shifting part pushes on workpiece movable target location, its whole process is without the need to manual operation, and automation efficiency is high.

Below just accompanying drawing in conjunction with the embodiments, is described in further detail the specific embodiment of the present invention, is easier to understand, grasp to make technical solution of the present invention.

Accompanying drawing explanation

Fig. 1 is rotary work station structure principle schematic of the present invention.

Fig. 2 is rotary work station of the present invention operating diagram.

Fig. 3 is the partial enlarged drawing at rotary work station of the present invention.

Fig. 4 is the structural representation at rotary work station of the present invention.

Detailed description of the invention

Below just accompanying drawing in conjunction with the embodiments, is described in further detail the specific embodiment of the present invention, is easier to understand, grasp to make technical solution of the present invention.

As shown in the figure, rotary work station, comprise bracing frame 1 and load-transfer device 2, bracing frame 1 comprises support platform 3 and the pillar stiffener 4 for four orthogonal distributions supporting described support platform, load-transfer device 2 be located at support platform 3 below and between relative two pillar stiffeners 4; Striking gear also comprises the propulsion source 5 be arranged in support platform, reductor 6, wheel word 7, induction installation 8, propulsion source 5 is fixedly arranged on directly over reductor 6, propulsion source 5 is motor or air motor, reductor 6 has a convex axle 9, and convex axle 9 runs through support platform 3 rotationally and drives connected wheel word 7 to rotate; Wheel word 7 comprises at least one swivel arm, be close between wheel word 7 and load-transfer device 2 and arrange, and the end of swivel arm on it can extend to the first side of load-transfer device 2, the workpiece be positioned on load-transfer device 2 is toggled it to workpiece movable target location by swivel arm in the process of rotating.Induction installation 8 is located at directly over load-transfer device 2, on the bottom surface that induction installation 8 is arranged at support platform 3 and whether the swivel arm that can detect on load-transfer device 2 arrives assigned address.

The both sides of load-transfer device 2 are respectively first side 21, second side 22, striking gear also comprises the propulsion source 5 be arranged in support platform, reductor 6, wheel word 7, induction installation 8, support platform 3 is provided with integrated first surface 31 and the second face 32, propulsion source 5, reductor 6 is arranged on the first surface 31 of support platform 3, wheel word 7, induction installation 8 is arranged on the second face 32 of support platform 3, induction installation 8 is located at directly over load-transfer device 2, propulsion source 5 is fixedly arranged on directly over reductor 6, in the present embodiment, propulsion source 5 is preferably motor, reductor 6 has a convex axle 9, convex axle 9 runs through support platform 3 rotationally and drives connected wheel word 7 to rotate, be close between wheel word 7 and load-transfer device 2 and arrange, and the end of swivel arm on it can extend to the first side 21 of load-transfer device 2, wheel word 7 can realize stirring whole-course automation and control, and then has liberated the both hands of workman, swivel arm by being positioned at load-transfer device 2 treats that shifting part toggles it to workpiece movable target location in the process of rotating.

Induction fills on 8 bottom surfaces being arranged at support platform 3 and whether the swivel arm that can detect on load-transfer device 2 arrives assigned address, if swivel arm does not arrive assigned address in the course of the work, motor stalling is made by controller, in the present embodiment, induction installation 8 is preferably infrared pickoff, the bottom surface that infrared inductor 8 is arranged on support platform 3 is fixedly arranged on first side, and can detect on load-transfer device 2 treat shifting part and drive motor 5 works, treating that shifting part is placed on load-transfer device 2, load-transfer device 2 starts constantly to push ahead, infrared inductor 8 senses and send signal to propulsion source 5 immediately after shifting part, start working immediately after motor 5 Received signal strength, motor 5 and reductor 6 are arranged on the first surface of support platform 3, motor 5 to be fixedly installed on directly over reductor 6 and to arrange for coaxial, reductor 6 is fixedly installed a convex axle 9, convex axle 9 runs through support platform 3 rotationally and drives connected wheel word 7 to rotate.

When load-transfer device 2 put thereon be advanced into surveyed area until shifting part time, convex axle 9 drives wheel word 7 to rotate, wheel word 7 starts to rotate and treats shifting part to be stirred, wheel word 7 comprises four swivel arms, extended to four direction by the attachment point between wheel word 7 and convex axle 9, swivel arm is cruciform construction, be respectively the first swivel arm 71, second swivel arm 72, the 3rd swivel arm 73, the 4th swivel arm 74, angle between each swivel arm is 90 °, and the hole on each swivel arm is used for alleviating swivel arm weight and having beauty function.Swivel arm is treating that shifting part toggles it to workpiece movable target location (as shown in Figure 2 square position), workman treats shifting part and processes, after processing, workman is treating this shifting part is put on load-transfer device 2, carry out further work, if wheel word 7 is very fast at rotation process medium speed ratio, reductor 6 can be adjusted, allow motor 5 slow.Workman, in shifting part working process, as left the work position of oneself, also can not delay production, the whole-course automation control that wheel word 7 can realize workpiece conveying, stir, and improves plant produced efficiency widely.

Certainly, described wheel word 7 also can be as coaxial yi word pattern structure, and wheel word comprises two swivel arms, and the attachment point that two swivel arms relatively rotate between device and convex axle is symmetrical.Attachment point between wheel word 7 and convex axle 9 on the same axis.Be close between wheel word 7 and load-transfer device 2 and arrange, and the end of swivel arm on it can extend to the first side 22 of load-transfer device 2; The bottom surface that inductor 8 is arranged on support platform 3 is fixedly arranged on first side, and can detect on load-transfer device 2 treat shifting part and drive motor 5 works.

Certainly, described wheel word 7 also can be triangular structure, and wheel word comprises three swivel arms, and swivel arm is 120 ° by angle centered by the attachment point between wheel word and convex axle.Attachment point angle between wheel word 7 and convex axle 9 is 120 °.Be close between wheel word 7 and load-transfer device 2 and arrange, and the end of swivel arm on it can extend to the first side 22 of load-transfer device 2; The bottom surface that inductor 8 is arranged on support platform 3 is fixedly arranged on first side, and can detect on load-transfer device 2 treat shifting part and drive motor 5 works.

The present invention can realize workpiece conveying, stir whole-course automation control, and automation efficiency is high, can greatly reduce manual labor, and for enterprise saves a large amount of manpower financial capacities, practical function is remarkable.

The above; be only the specific embodiment of the present invention; but protection scope of the present invention is not limited thereto; any those of ordinary skill in the art are in the technical scope disclosed by the present invention; the change can expected without creative work or replacement, all should be encompassed within protection scope of the present invention.Therefore, the protection domain that protection scope of the present invention should limit with claims is as the criterion.

Claims (8)

1. rotary work station, it is characterized in that: comprise bracing frame and load-transfer device, support frame as described above comprises support platform and the pillar stiffener for four orthogonal distributions supporting described support platform, described load-transfer device be located at described support platform below and between relative two pillar stiffeners; Described striking gear also comprises the propulsion source, reductor, the wheel word that are arranged in described support platform, described propulsion source is fixedly arranged on directly over described reductor, described reductor has a convex axle, and described convex axle runs through described support platform rotationally and drives connected described wheel word to rotate; Described wheel word comprises at least one swivel arm, be close between described wheel word and described load-transfer device and arrange, and the end of described swivel arm on it can extend to the first side of described load-transfer device, the workpiece be positioned on described belt conveyor is toggled it to workpiece movable target location by described swivel arm in the process of rotating.

2. rotary work station according to claim 1, is characterized in that: also comprise induction installation, on the bottom surface that described induction installation is arranged at described support platform and whether the swivel arm that can detect on described load-transfer device arrives assigned address.

3. rotary work station according to claim 2, is characterized in that: described induction installation is located at directly over described load-transfer device.

4. rotary work station according to claim 3, is characterized in that: described induction installation is infrared pickoff.

5. rotary work station according to claim 1, is characterized in that: described propulsion source is motor or air motor.

6. according to the arbitrary described rotary work station of claim 1 to 5, it is characterized in that: described wheel word comprises four described swivel arms, for cruciform construction, extended to four direction by the attachment point between described wheel word and described convex axle, the angle between described swivel arm is 90 °.

7. according to the arbitrary described rotary work station of claim 1 to 5, it is characterized in that: described wheel word comprises two described swivel arms, for coaxial yi word pattern structure, the attachment point between two relatively described wheel words of described swivel arm and described convex axle is symmetrical.

8. according to the arbitrary described rotary work station of claim 1 to 5, it is characterized in that: described wheel word comprises three described swivel arms, for triangular structure, described swivel arm is 120 ° by angle centered by the attachment point between described wheel word and described convex axle.