CN201442765U - Vertical solar glass delivery device - Google Patents

Abstract

The utility model provides a solar glass delivery device, which can improve the handling delivery efficiency of the glass, reduce the damage of the glass during the delivery process and can ensure the surface quality of the glass, and comprises a delivery table and a delivery driving device, wherein the delivery driving device is installed below the delivery table, and is characterized in that the delivery driving device comprises a motor and transmission rollers, wherein the transmission rollers are installed on the lower part of the delivery table, the axial direction of the transmission rollers is vertical to the delivery table, the motor is connected with a variable-frequency controller, the variable-frequency controller is connected with a PLC electric control, the motor is connected with a rotating shaft of the transmission rollers through a chain, and the transmission rollers are connected with each other through a chain.

Description

A kind of vertical type solar glass conveyer device

(1) technical field

The utility model relates to the load transfer device field of finished glass, is specially a kind of vertical type solar glass conveyer device.

(2) background technology

The solar energy glass of general finished product is carried and is only relied on the artificial conveyance carrying, the cost of labor height, and efficient is low, and can increase the probability that glass scratches in the process of a dead lift, influences the glass surface quality.

(3) summary of the invention

At the problems referred to above, the utility model provides a kind of solar glass conveyer device, and the carrying transport efficiency that it can improve glass reduces the damage that glass is subjected at course of conveying, guarantees the glass surface quality.

Its technical scheme is such: it comprises transport platform and feed drive device, described feed drive device is installed on described transport platform below, it is characterized in that: described feed drive device comprises electrical motor and live roll, described live roll is installed on described transport platform bottom, it is axially vertical with described transport platform, described electrical motor is connected with frequency-variable controller, described frequency-variable controller connects with PLC is automatically controlled, described electrical motor is connected with described live roll turning cylinder by chain, connects with chain between the described live roll.

It is further characterized in that: on the described transport platform roller is installed; Described transport platform bottom is equipped with photoelectric switch; Described photoelectric switch connects with PLC is automatically controlled; Described feed drive device is provided with 13 covers; Described 13 cover feedways are set up in parallel; In the described 13 cover feedways, the first cover photoelectric switch is controlled this by PLC and is overlapped cooresponding electrical motor work when detecting shelter, controls this by PLC and overlaps cooresponding electrical motor and quit work when detecting when not having shelter; Second cover photoelectric switch to the 13 cover photoelectric switchs are controlled this by PLC when not having shelter and are overlapped cooresponding electrical motor work detecting; The 13 cover photoelectric switch is controlled this by PLC and is overlapped cooresponding electrical motor and quit work when having detected shelter, the 3rd cover photoelectric switch to the 12 cover photoelectric switchs are when having detected shelter and its last joint photoelectric switch and detected shelter, and it is controlled the cooresponding electrical motor of last joint by PLC and quits work; Described 13 cover feed drive devices, second cover also comprises foot-operated switch to 13 cover feed drive devices, described foot-operated switch is connected with described electrical motor is automatically controlled.

Use the vertical type solar glass conveyer device of the utility model structure, its beneficial effect is: it can improve the transport efficiency of glass greatly, and can guarantee to have reduced the conveying quality of glass glass as far as possible and in course of conveying, sustained damage, guaranteed the glass product qualified rate; In addition, alleviate workman's carrying intensity, be fit to the production and processing of glass in enormous quantities.

(4) description of drawings

The structural representation that Fig. 1 looks for the utility model master;

Fig. 2 is the left side view of Fig. 1, for the clear transportation relation of expressing, has expressed glass among Fig. 2;

Fig. 3 is the control block diagram of PLC, photoelectric switch and foot-operated switch, motor in the utility model.

(5) specific embodiment

See Fig. 1, Fig. 2, Fig. 3, the utility model comprises transport platform 3 and feed drive device, feed drive device is installed on the transport platform below, feed drive device comprises electrical motor 1 and live roll 2, and live roll 2 is installed on transport platform 3 bottoms, and it is axially vertical with transport platform, electrical motor 1 is connected with frequency-variable controller, frequency-variable controller connects with PLC is automatically controlled, and electrical motor 1 is connected with live roll 2 turning cylinders by chain 4, connects with chain between the live roll 2.Roller 5 is installed on the transport platform 3; Transport platform 3 bottoms are equipped with photoelectric switch 6; Photoelectric switch 6 connects with PLC is automatically controlled; Feed drive device is provided with 13 covers; 13 cover feedways are set up in parallel; In the 13 cover feedways, the first cover photoelectric switch is controlled this by PLC and is overlapped cooresponding electrical motor work when detecting shelter, controls this by PLC and overlaps cooresponding electrical motor and quit work when detecting when not having shelter; Second cover photoelectric switch to the 13 cover photoelectric switchs are controlled this by PLC when not having shelter and are overlapped cooresponding electrical motor work detecting; The 13 cover photoelectric switch is controlled this by PLC and is overlapped cooresponding electrical motor and quit work when having detected shelter, the 3rd cover photoelectric switch to the 12 cover photoelectric switchs are when having detected shelter and its last joint photoelectric switch and detected shelter, it is controlled the cooresponding electrical motor of last joint by PLC and quits work, and 8 is glass; 13 cover feed drive devices, second cover also comprises foot-operated switch 7 to 13 cover feed drive devices, foot-operated switch 7 electricly connects with electrical motor 1.

Working process of the present utility model is described below: turn on the power switch once, PLC is automatically controlled, the live roll of the 1st covering device is static, the live roll of the 2nd cover～the 13 covering device begins to rotate under the drive of separately electrical motor, when glass is placed on the transport platform of the 1st covering device and glass when covering photoelectric switch, photoelectric switch passes to the PLC controller with signal, control the motor start-up of the 1st covering device by the PLC controller, the drive live roll rotates, glass is carried to the 2nd covering device, when glass leaves the photoelectric switch of the 1st covering device, the live roll of the 1st covering device stops operating; Glass is along with the rotation of the 2nd cover live roll is fed forward, spline is moving, when on the 13rd covering device glass being arranged, the photoelectric switch of the 13rd covering device sends signal and gives the PLC controller, the PLC controller is controlled the photoelectric switch of the 12nd covering device, the motor of this joint quits work when the photoelectric switch of the 12nd covering device detects this joint glass is arranged, the 13rd cover when when the 13rd covering device unloads lower-glass, the 13rd covering device and before the live roll of each covering device begin rotation again; When putting when unloading lower-glass the 2nd cover arbitrary to the 13rd covering device, need be before glass covers photoelectric switch, step on foot-operated switch, when glass covers photoelectric switch, live roll 2 stops operating, at this moment can unload lower-glass, when glass leaves photoelectric switch, live roll 2 is rotated further carries next piece glass.

Claims (8)

1. vertical type solar glass conveyer device, it comprises transport platform and feed drive device, described feed drive device is installed on described transport platform below, it is characterized in that: described feed drive device comprises electrical motor and live roll, described live roll is installed on described transport platform bottom, it is axially vertical with described transport platform, described electrical motor is connected with frequency-variable controller, described frequency-variable controller connects with PLC is automatically controlled, described electrical motor is connected with described live roll turning cylinder by chain, connects with chain between the described live roll.

2. according to the described a kind of vertical type solar glass conveyer device of claim 1, it is characterized in that: on the described transport platform roller is installed.

3. according to the described a kind of vertical type solar glass conveyer device of claim 2, it is characterized in that: described transport platform bottom is equipped with photoelectric switch.

4. according to the described a kind of vertical type solar glass conveyer device of claim 3, it is characterized in that: described photoelectric switch connects with PLC is automatically controlled.

5. according to the described a kind of vertical type solar glass conveyer device of claim 4, it is characterized in that: described feed drive device is provided with 13 covers.

6. according to the described a kind of vertical type solar glass conveyer device of claim 5, it is characterized in that: described 13 cover feedways are set up in parallel.

7. according to the described a kind of vertical type solar glass conveyer device of claim 6, it is characterized in that: in the described 13 cover feedways, the first cover photoelectric switch is controlled this by PLC and is overlapped cooresponding electrical motor work when detecting shelter, control this by PLC and overlap cooresponding electrical motor and quit work when detecting when not having shelter; Second cover photoelectric switch to the 13 cover photoelectric switchs are controlled this by PLC when not having shelter and are overlapped cooresponding electrical motor work detecting; The 13 cover photoelectric switch is controlled this by PLC and is overlapped cooresponding electrical motor and quit work when having detected shelter, the 3rd cover photoelectric switch to the 12 cover photoelectric switchs are when having detected shelter and its last joint photoelectric switch and detected shelter, and it is controlled the cooresponding electrical motor of last joint by PLC and quits work.

8. according to the described a kind of vertical type solar glass conveyer device of claim 7, it is characterized in that: described 13 cover feed drive devices, second cover also comprises foot-operated switch to 13 cover feed drive devices, described foot-operated switch is connected with described electrical motor is automatically controlled.

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