CN201095542Y - T-shaped row automatic feeding device turnover mechanism - Google Patents

Abstract

The utility model relates to a dumping gear in a T-shaped row automatic charging gear, in particular to a dumping gear which is overturned to 90 DEG in the process of standing a board for charging before assembling the T-shaped row, and the dumping gear belongs to the technical field of mechanical equipments. The dumping gear is characterized in that a reductor is arranged on an elevating beam, the reductor is provided with a chain wheel, an intermediate shaft component is connected to and arranged on the side face of the elevating beam, a duplex chain is used for connecting between the chain wheels, and an electromagnet assembly is arranged below the elevating beam. The dumping gear in the T-shaped row automatic charging gear has the advantages of simple, compact and reasonable structure, high automation degree and easy use, and is suitable for the automatic charging process for a volume-produce marine T-shaped row product line, can increase the efficiency and reduce the labour intensity and the potential safety hazard.

Description

Switching mechanism in the T type row automatic charging device

Technical field

The utility model relates to switching mechanism in a kind of T type row automatic charging device, specifically before the T row assembly unit, in the riser material loading process, it is turned into 90 degree, belongs to mechanical equipment technical field.

Background technology

In prior art, the material loading before the T row assembly unit normally adopts artificial material loading, manual upset riser, and inefficiency, the labour intensity height, and have very big potential safety hazard.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned weak point, thereby switching mechanism in a kind of T type row automatic charging device is provided, and can improve degree of automation greatly, increase work efficiency, but actv. has solved the bottleneck problem of material loading process in the T row manufacturing line.

Main solution of the present utility model is achieved in that

The utility model mainly adopts reductor to be installed in above the lifting beam, and sprocket wheel is installed on the reductor, and intermediate shaft assembly is mounted on the lifting beam sides, and sprocket wheel is connected by duplex chain with sprocket wheel, and electromagnet assembly is installed on below the lifting beam.

Described electromagnet assembly adopts support to be installed on below the lifting beam, and trip shaft is rack-mount, and sprocket wheel is installed on the trip shaft, pilot bar is fixed on the turning rack, be with recoil spring on the pilot bar, electromagnet is equipped with in the pilot bar lower end, adopts spring buffer between electromagnet and the turning rack.

Described sensor is installed on the sensor stand at trip shaft termination sensor installation support, and induction rod is installed in the hoisting cross beam side.

Described intermediate shaft assembly adopts on the tween drive shaft sprocket wheel is installed, sprocket wheel connects by adapter sleeve.

Compared with the prior art the utility model has the following advantages:

The utility model is simple, compact and reasonable for structure; The degree of automation height, easy to use, be fit to produce the automatic charging process that T peculiar to vessel arranges manufacturing line in enormous quantities, raise the efficiency, reduce labour intensity, reduce potential safety hazard.

Description of drawings

Fig. 1 is the utility model structural front view.

Fig. 2 is that the utility model structure partial P is to view.

Fig. 3 is the utility model structure A-A cutaway view.

The specific embodiment

Embodiment during following the utility model is incited somebody to action in conjunction with the accompanying drawings is further described:

The utility model mainly is made up of reductor 1, sprocket wheel 2, duplex chain 3, sprocket wheel 4, bearing seat 5, tween drive shaft 6, adapter sleeve 7, sprocket wheel 8, roller chain 9, sprocket wheel 10, support 11, trip shaft 12, turning rack 13, pilot bar 14, spring 15, electromagnet 16, induction rod 17, sensor 18, sensor stand 19, lifting beam 20 etc.

The utility model reductor 1 is installed in above the lifting beam 20, sprocket wheel 2 is installed on the reductor 1, intermediate shaft assembly is mounted on lifting beam 20 sides, tween drive shaft 6 is formed by some, connect (sprocket wheel 4, sprocket wheel 8 are installed on the tween drive shaft 6) by adapter sleeve 7 and be installed in lifting beam 20 sides, sprocket wheel 2 and sprocket wheel 4 are connected by duplex chain.Electromagnet assembly is installed on below the lifting beam 20.

Described electromagnet assembly adopts support 11 to be installed on below the hoisting cross beam 20, and trip shaft 12 is installed on the support 11, and sprocket wheel 10 is installed on the trip shaft 12, adopts key to connect between turning rack 13 is enclosed within on the trip shaft 12.Pilot bar 14 is fixed on the turning rack 13, is with recoil spring 15 on the pilot bar 14, and electromagnet 16 is equipped with in pilot bar 14 lower ends, adopts spring buffer between electromagnet 16 and the turning rack 13.The reductor flip angle adopts sensor control.Sensor stand 19 is installed in trip shaft 12 terminations, and sensor 18 is installed on the sensor stand 19, and induction rod 17 is installed in lifting beam 20 sides.

The utility model principle of work and working process

The utility model is by reductor work, sprocket wheel 2 rotates, chain-driving drives sprocket wheel 4 and rotates, sprocket wheel 4 connects drive tween drive shaft 6 by key and rotates, several sprocket wheels 8 are installed on the tween drive shaft 6 to rotate with tween drive shaft 6, sprocket wheel 8 chain-drivings drive sprocket wheel 10 and rotate, sprocket wheel 10 connects drive trip shaft 12 by key and rotates, trip shaft 12 connects drive turning rack 13 by key and rotates, turning rack 13 drives electromagnet 16 upsets by pilot bar, thereby the T type row riser of drive suction on electromagnet 16 turns over and turn 90 degrees, and becomes vertical placement with T type row end plate.Flip angle is controlled by sensor, driving sensor stand 19 in tween drive shaft 6 rotation processes rotates, 18, two sensors of two sensors 18 sensitive bar 17 respectively is installed on the sensor stand 19, thereby guarantees the spacing of workpiece water mean place and upright position respectively.

Claims (4)

1, switching mechanism in a kind of T type row automatic charging device, comprise lifting beam (20), feature is to adopt reductor (1) to be installed in above the lifting beam (20), reductor (1) is gone up sprocket wheel (2) is installed, intermediate shaft assembly is mounted on lifting beam (20) side, sprocket wheel (2) is connected by duplex chain with sprocket wheel (4), and electromagnet assembly is installed on below the hoisting cross beam (20).

2, switching mechanism in the T type row automatic charging device according to claim 1, it is characterized in that described electromagnet assembly adopts trip shaft (12) to be installed on the support (11), sprocket wheel (10) is installed on the trip shaft (12), pilot bar (14) is fixed on the turning rack (13), be with recoil spring (15) on the pilot bar (14), electromagnet (16) is equipped with in pilot bar (14) lower end.

3, switching mechanism in the T type row automatic charging device according to claim 1, it is characterized in that described trip shaft (12) termination sensor installation support (19), sensor (18) is installed on the sensor stand (19), and induction rod (17) is installed in lifting beam (20) side.

4, switching mechanism in the T type row automatic charging device according to claim 1 is characterized in that described intermediate shaft assembly adopts tween drive shaft (6) to go up installation sprocket wheel (4), sprocket wheel (8) connects by adapter sleeve (7).

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