CN219546098U - Feeding and discharging structure of assembly line - Google Patents

Abstract

The utility model discloses a feeding and discharging structure of a production line, which comprises a first production line and a second production line, wherein a fixed L-shaped plate is arranged on one side of the first production line, a motor is fixedly connected to the side wall of the fixed L-shaped plate, a threaded rod is fixedly connected to the output end of the motor, the threaded rod penetrates through the fixed L-shaped plate and is rotationally connected with the fixed L-shaped plate, a sliding block in threaded connection with the threaded rod is sleeved on the outer wall of the threaded rod, the sliding block penetrates through the fixed L-shaped plate and is in sliding connection with the threaded rod, a hydraulic rod is fixedly connected to the bottom of the sliding block, an adsorption plate is fixedly connected to the output end of the hydraulic rod, and a plurality of adsorption mechanisms are arranged on the adsorption plate. According to the utility model, the adsorption mechanism is arranged to limit the glass, and the automatic feeding and discharging operation is carried out on the glass product, so that the manual work is replaced, the time and the manual work are saved, and the working efficiency of the assembly line is improved.

Description

Feeding and discharging structure of assembly line

Technical Field

The utility model relates to the technical field of assembly line devices, in particular to a feeding and discharging structure of an assembly line.

Background

In the production manufacturing process, the production line is provided with a feeding and discharging structure, and the feeding and discharging structure of the production line is required.

In the prior art, the feeding and discharging operations in the production and processing process of glass are basically completed by manpower, glass products are required to be manually taken down from one production line, and then the glass products are fed from the other production line, so that time and manpower resources are wasted through manual feeding and discharging, and the working efficiency of the production line is greatly reduced; in order to solve the above problems, the present utility model provides a feeding and discharging structure of a production line.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a feeding and discharging structure of a production line, which can limit glass by arranging an adsorption mechanism and automatically feed and discharge glass products, so that the feeding and discharging structure replaces manpower, saves time and manpower and improves the working efficiency of the production line.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a unloading structure on assembly line, includes first assembly line and second assembly line, one side of first assembly line is equipped with fixed L template, the lateral wall fixedly connected with connecting rod of fixed L template, the connecting rod is close to the one end fixedly connected with limiting plate of first assembly line, install pressure sensor on the limiting plate, the lateral wall fixedly connected with motor of fixed L template, the output fixedly connected with threaded rod of motor, the threaded rod runs through fixed L template and rotates with it to be connected, the outer wall cover of threaded rod is equipped with the slider with threaded connection, the slider runs through fixed L template and rather than sliding connection, the bottom fixedly connected with hydraulic stem of slider, the output fixedly connected with adsorption plate of hydraulic stem, be equipped with a plurality of adsorption mechanisms on the adsorption plate, adsorption mechanism is including setting up the vacuum generator at adsorption plate top, the bottom fixedly connected with adsorption head of adsorption plate, the last connecting pipe that runs through with rather than fixedly connected with of adsorption plate, the both ends of connecting pipe respectively with vacuum generator and adsorption head fixedly connected with, the both ends of connecting pipe are linked together with vacuum generator and adsorption head respectively.

Preferably, the first assembly line comprises two pairs of first support plates, each pair of first support plates is connected with a first rotating roller in a common rotating mode, and the two first rotating rollers are sleeved with a first conveying belt in a common mode.

Preferably, the second assembly line comprises two pairs of second support plates, each pair of second support plates is connected with a second rotating roller in a common rotating mode, and the two second rotating rollers are sleeved with a second conveying belt in a common mode.

Preferably, a plurality of glasses are placed on the first assembly line and the second assembly line, and the glasses are distributed at equal intervals.

Preferably, the top fixedly connected with stopper of slider, be equipped with the sliding tray on the fixed L template, stopper and the inner wall sliding connection of sliding tray.

Preferably, a central controller is arranged on the fixed L-shaped plate and is electrically connected with the pressure sensor, the motor, the hydraulic rod and the vacuum generator.

Compared with the prior art, the utility model has the beneficial effects that:

1. when glass on the first assembly line is conveyed to the rightmost side, the glass is in contact with the pressure sensor on the limiting plate, the pressure sensor senses pressure and transmits signals to the central controller, and the central controller is used for carrying out adsorption limiting operation.

2. The vacuum generator is used for sucking away air in the connecting pipe and the adsorption head until the adsorption head is attached to the glass to adsorb the glass, so that the subsequent glass moving is facilitated to carry out blanking and feeding operations.

In conclusion, through setting up adsorption equipment and can spacing glass, carry out automatic material loading and unloading operation to the glass product, replaced the manual work, practiced thrift time and manpower, improved the work efficiency of assembly line.

Drawings

FIG. 1 is a cross-sectional view of a loading and unloading structure of a production line according to the present utility model;

FIG. 2 is a front view of a loading and unloading structure of a production line according to the present utility model;

fig. 3 is an enlarged view of the structure at a in fig. 1.

In the figure: 1 a first assembly line, 2 a second assembly line, 3 glass, 4 fixed L-shaped plates, 5 connecting rods, 6 limiting plates, 7 pressure sensors, 8 motors, 9 threaded rods, 10 sliding blocks, 11 limiting blocks, 12 hydraulic rods, 13 adsorption plates, 14 vacuum generators, 15 connecting pipes, 16 adsorption heads and 17 central controllers.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-3, a blanking structure on assembly line, including first assembly line 1 and second assembly line 2, first assembly line 1 includes two pairs of first backup pads, every pair of first backup pad is connected with first rotatory roller in a rotation jointly, two first rotatory rollers overlap jointly and are equipped with first conveyer belt, first conveyer belt carries glass 3 and accomplishes cutting assembly line processing, second assembly line 2 includes two pairs of second backup pads, every pair of second backup pad rotates jointly and is connected with the second rotatory roller, two second rotatory rollers overlap jointly and are equipped with the second conveyer belt, a plurality of glass 3 have all been placed on first assembly line 1 and the second assembly line 2, a plurality of glass 3 are equidistant distribution, the second conveyer belt carries glass 3, wash processing with glass 3.

One side of first assembly line 1 is equipped with fixed L template 4, and fixed L template 4's lateral wall fixedly connected with connecting rod 5, and connecting rod 5 is close to first assembly line 1's one end fixedly connected with limiting plate 6, installs pressure sensor 7 on the limiting plate 6, and limiting plate 6 can intercept glass 3, makes it stop and makes things convenient for subsequent unloading and material loading operation.

The lateral wall fixedly connected with motor 8 of fixed L template 4, the output fixedly connected with threaded rod 9 of motor 8, threaded rod 9 runs through fixed L template 4 and rotates rather than being connected, the outer wall cover of threaded rod 9 is equipped with the slider 10 with threaded connection, slider 10 runs through fixed L template 4 and rather than sliding connection, the top fixedly connected with stopper 11 of slider 10, be equipped with the sliding tray on the fixed L template 4, the inner wall sliding connection of stopper 11 and sliding tray, the bottom fixedly connected with hydraulic rod 12 of slider 10, the output fixedly connected with adsorption plate 13 of hydraulic rod 12, be equipped with a plurality of adsorption mechanisms on the adsorption plate 13, it is spacing to adsorb glass 3 through adsorption mechanism, make its removal.

The adsorption mechanism comprises a vacuum generator 14 arranged at the top of an adsorption plate 13, an adsorption head 16 is fixedly connected to the bottom of the adsorption plate 13, a connecting pipe 15 fixedly connected with the adsorption head 16 is penetrated through the adsorption plate 13, two ends of the connecting pipe 15 are respectively fixedly connected with the vacuum generator 14 and the adsorption head 16, two ends of the connecting pipe 15 are respectively communicated with the vacuum generator 14 and the adsorption head 16, air in the adsorption head 16 can be sucked away, the glass 3 is adsorbed, a central controller 17 is arranged on a fixed L-shaped plate 4, and the central controller 17 is electrically connected with a pressure sensor 7, a motor 8, a hydraulic rod 12 and the vacuum generator 14 to control the operation of various electric elements.

In the utility model, glass 3 on a cutting assembly line can be conveyed through a first assembly line 1, the cut glass 3 is fed, and finally the glass 3 is fed to a second assembly line 2 for cleaning; when the glass 3 on the first production line 1 is conveyed to the rightmost side, the glass 3 is in contact with the pressure sensor 7 on the limiting plate 6, the pressure sensor 7 senses pressure and transmits signals to the central controller 17, the central controller 17 controls the motor 8 to work, the output end of the motor 8 drives the threaded rod 9 to rotate so as to enable the sliding block 10, the limiting block 11, the hydraulic rod 12 and the adsorption plate 13 to move forwards until the adsorption plate 13 is positioned above the glass 3, the central controller 17 controls the hydraulic rod 12 and the adsorption plate 13 to work, the adsorption plate 13 is driven to move downwards by the hydraulic rod 12, the vacuum generator 14 sucks air in the connecting pipe 15 and the adsorption head 16 until the adsorption head 16 is attached to the glass 3 to adsorb the glass 3, and the subsequent glass 3 moving is facilitated to carry out blanking and feeding operations; the central controller 17 controls the hydraulic rod 12 to drive the adsorption plate 13 and the adsorbed glass 3 to move upwards, at the moment, the central controller 17 controls the motor 8 to work to drive the adsorbed glass 3 to move backwards until the adsorbed glass 3 is positioned above the second assembly line 2, at the moment, the central controller 17 controls the hydraulic rod 12 to work to enable the adsorbed glass 3 to move downwards, at the same time, the central controller 17 controls the plurality of vacuum generators 14 to stop working, at the moment, the air pressure in the adsorption head 16 is balanced with the air pressure of the outside, the adsorbed glass 3 is discharged and falls onto the second assembly line 2 to be conveyed, the blanking operation of the glass 3 from the first assembly line 1 is completed, the feeding operation of the glass 3 is carried out from the second assembly line 2, and the cleaning operation after cutting of the glass 3 is completed.

By arranging the adsorption mechanism, the utility model solves the problems that in the prior art, glass products need to be manually taken down from one production line, then the glass products are fed from the other production line, time and manpower resources are wasted through manual feeding and discharging, and the working efficiency of the production line is greatly reduced.

Claims (6)

1. The utility model provides a unloading structure on assembly line, includes first assembly line (1) and second assembly line (2), its characterized in that, one side of first assembly line (1) is equipped with fixed L template (4), the lateral wall fixedly connected with connecting rod (5) of fixed L template (4), one end fixedly connected with limiting plate (6) that connecting rod (5) is close to first assembly line (1), install pressure sensor (7) on limiting plate (6), the lateral wall fixedly connected with motor (8) of fixed L template (4), the output fixedly connected with threaded rod (9) of motor (8), threaded rod (9) run through fixed L template (4) and rotate rather than being connected, the outer wall cover of threaded rod (9) is equipped with slider (10) with threaded connection, slider (10) run through fixed L template (4) and rather than sliding connection, the bottom fixedly connected with hydraulic stem (12) of slider (10), the output fixedly connected with adsorption plate (13) of hydraulic stem (12), be equipped with a plurality of adsorption units on adsorption plate (13).

The adsorption mechanism comprises a vacuum generator (14) arranged at the top of an adsorption plate (13), an adsorption head (16) is fixedly connected to the bottom of the adsorption plate (13), a connecting pipe (15) fixedly connected with the adsorption plate (13) is arranged on the adsorption plate in a penetrating mode, two ends of the connecting pipe (15) are fixedly connected with the vacuum generator (14) and the adsorption head (16) respectively, and two ends of the connecting pipe (15) are communicated with the vacuum generator (14) and the adsorption head (16) respectively.

2. The feeding and discharging structure of a production line according to claim 1, wherein the first production line (1) comprises two pairs of first support plates, each pair of first support plates is connected with a first rotating roller in a common rotating mode, and the two first rotating rollers are sleeved with a first conveying belt in a common mode.

3. The feeding and discharging structure of the assembly line according to claim 1, wherein the second assembly line (2) comprises two pairs of second support plates, each pair of second support plates is connected with a second rotating roller in a common rotating manner, and the two second rotating rollers are sleeved with a second conveyor belt.

4. The feeding and discharging structure of the assembly line according to claim 1, wherein a plurality of glass (3) are placed on the first assembly line (1) and the second assembly line (2), and the glass (3) are distributed at equal intervals.

5. The assembly line feeding and discharging structure according to claim 1, wherein a limiting block (11) is fixedly connected to the top of the sliding block (10), a sliding groove is formed in the fixed L-shaped plate (4), and the limiting block (11) is slidably connected with the inner wall of the sliding groove.

6. The assembly line feeding and discharging structure according to claim 1, wherein a central controller (17) is mounted on the fixed L-shaped plate (4), and the central controller (17) is electrically connected with the pressure sensor (7), the motor (8), the hydraulic rod (12) and the vacuum generator (14).