CN202897433U - Glass automatic allocation production line device - Google Patents

Abstract

The utility model discloses a glass automatic allocation production line device which comprises a first production line device, a bidirectional transmission production line device and a second production line device, and the first production line device, the bidirectional transmission production line device and the second production line device are sequentially arranged. The glass automatic allocation production line device further comprises a sensor induction system and a programmable logic controller (PLC) control device. The sensor induction system comprises a first sensor arranged outside the first production line device and a second sensor arranged outside the second production line device, the sensor induction system further comprises a feeding sensor arranged on the bidirectional transmission production line device, and a jacking cylinder and a bidirectional transmission motor are further arranged on the lower side of the bidirectional transmission production line device. The sensor induction system, the jacking cylinder and the bidirectional transmission motor are all connected with the PLC control device in a communication mode. According to the glass automatic allocation production line device, glass is allocated from the bidirectional transmission production line device to two horizontal production lines, glass allocation towards the existing two production lines is achieved at the same time, labor intensity of workers is greatly lightened, and production efficiency is improved; and meanwhile, through the sensor induction system and the PLC control device, production line states are analyzed, automatic allocation of glass is achieved, and the probability of piece collision in the transmitting process is prevented.

Description

A kind of glass distributes flow-line equipment automatically

Technical field

The utility model relates to a kind of raw MAT'L automatic shunt for the workshop assembly, relates in particular to a kind of glass and automatically distributes flow-line equipment.

Background technology

At present in service in the scale of the production of crystal silicon solar assembly; the production capacity of every day is increasing; the consumption of frit is increasing; but in present workshop framework; mostly the glass material loading of automatic string welding machine is can't realize automation by artificial Manual feeding, not only needs great manpower; increase the labour intensity of personnel operation, reduce production efficiency.

The utility model content

The utility model purpose: the purpose of this utility model is for the deficiencies in the prior art, provide a kind of glass of automatic charging of can realizing automatically to distribute flow-line equipment, increased production capacity, increased simultaneously the mechanical automation degree, reduce personnel's affected labour intensity, reduce production costs.

Technical scheme: glass described in the utility model distributes flow-line equipment automatically, comprises first-class production line apparatus, second production line apparatus, bidirectional transmission flow-line equipment, sensor sensing system, PLC control setup; The bidirectional transmission flow-line equipment is located between first-class production line apparatus and the second production line apparatus; The sensor sensing system comprises first sensor and the second sensor of being located at respectively first-class production line apparatus and the second production line apparatus outside, the sensor sensing system also comprises the charging sensor of being located on the bidirectional transmission flow-line equipment, bidirectional transmission flow-line equipment downside also is provided with jacking cylinder and bidirectional transmission motor, the vertical jack-up of jacking cylinder of bidirectional transmission flow-line equipment when glass is transmitted by front road station, comprise the forward conveyor line belt dressing of transmission in the jacking apparatus, guarantee that glass can be transferred to forward this conveyor line, what use in the transmission course is belt transport, after glass is transferred to this station, the jacking cylinder falls, transmission about carrying out is judged by the PLC control setup to be assigned to first or the function of second waterline; Sensor sensing system, jacking cylinder and bidirectional transmission motor all communicate to connect with the PLC control setup.

Further, the sensor of being located on the first-class production line apparatus is two first sensors arranged side by side, and the sensor of being located on the second production line apparatus is two the second sensors arranged side by side.

Bidirectional transmission flow-line equipment charging stroke maximum is provided with two charging sensors.

Beneficial effect: (1) divides glazing by the bidirectional transmission flow-line equipment to two horizontal flow waterlines, realizes carrying out the distribution of glass to existing two conveyor lines simultaneously, greatly alleviates hand labor intensity and has improved production efficiency; (2) by the transmission location of sensor sensing system induction glass and idle, the busy condition of conveyor line, and by realizing the automatic distribution of glass, the possibility that prevents from occurring in the transmission course hitting sheet after the PLC control setup analysis judged result.

Description of drawings

Fig. 1 is the utility model structural representation.

Among the figure: 1, bidirectional transmission flow-line equipment; 2, first-class production line apparatus; 3, second production line apparatus; 4, first sensor; 5, charging sensor; 6, the second sensor; 7, jacking cylinder; 8, bidirectional transmission motor.

The specific embodiment

The below is elaborated to technical solutions of the utility model, but protection domain of the present utility model is not limited to described embodiment.

Embodiment:Glass of the present utility model distributes flow-line equipment automatically, comprises first-class production line apparatus 2, second production line apparatus 3, bidirectional transmission flow-line equipment 1, sensor sensing system, PLC control setup; Bidirectional transmission flow-line equipment 1 is located between first-class production line apparatus 2 and the second production line apparatus 3; The sensor sensing system comprises first sensor 4 and the second sensor 6 of being located at respectively first-class production line apparatus 2 and second production line apparatus 3 outsides, the sensor sensing system also comprises the charging sensor 5 of being located on the bidirectional transmission flow-line equipment, and bidirectional transmission flow-line equipment 1 downside also is provided with jacking cylinder 7 and bidirectional transmission motor 8; Sensor sensing system, jacking cylinder 7 and bidirectional transmission motor 8 all communicate to connect with the PLC control setup.

The sensor of being located on the first-class production line apparatus 2 is two first sensors arranged side by side 4, and the sensor of being located on the second production line apparatus 3 is two the second sensors 6 arranged side by side.Bidirectional transmission flow-line equipment 1 charging stroke maximum is provided with two charging sensors 5.

During concrete the use, charging sensor 5 is judged glass, and whether charging puts in place, when glass feed puts in place, jacking cylinder 7 jack-up, make the work of bidirectional transmission flow-line equipment 1 front and back, guarantee that glass can be transferred to this bidirectional transmission flow-line equipment 1, what use in the transmission course is belt transport, after glass is transferred to this station, jacking cylinder 7 falls, transmission about carrying out, judge simultaneously the busy condition of first-class production line apparatus 2 and second production line apparatus 3 by first sensor 4 and the second sensor 6, the PLC control setup is judged the glass dispense path, and bidirectional transmission motor 8 is implemented the actual allocated flow process that glass distributes automatically, and judge by first sensor 4 and the second sensor 6 whether glass transmits and put in place, thereby realize automatic distribution function.

As mentioned above, although represented and explained the utility model with reference to specific preferred embodiment, it shall not be construed as the restriction to the utility model self.Under the spirit and scope prerequisite of the present utility model that does not break away from the claims definition, can make in the form and details various variations to it.

Claims (3)

1. a glass distributes flow-line equipment automatically, comprise first-class production line apparatus, second production line apparatus, bidirectional transmission flow-line equipment, sensor sensing system, PLC control setup, it is characterized in that: described first-class production line apparatus and described second production line apparatus are separately positioned on described bidirectional transmission flow-line equipment both sides; Described sensor sensing system comprises first sensor and the second sensor of being located at respectively described first-class production line apparatus and the described second production line apparatus outside, described sensor sensing system also comprises the charging sensor of being located on the described bidirectional transmission flow-line equipment, described bidirectional transmission flow-line equipment downside also is provided be used to the jacking cylinder of controlling described bidirectional transmission flow-line equipment operative orientation and bidirectional transmission motor, described sensor sensing system, jacking cylinder and bidirectional transmission motor all with described PLC control setup communication connection.

2. glass according to claim 1 distributes flow-line equipment automatically, it is characterized in that: the sensor of being located on the described first-class production line apparatus is two first sensors arranged side by side, and the sensor of being located on the described second production line apparatus is two the second sensors arranged side by side.

3. glass according to claim 1 distributes flow-line equipment automatically, it is characterized in that: described bidirectional transmission flow-line equipment charging stroke maximum is provided with two described charging sensors.

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