CN217673566U - Blank arranging machine system - Google Patents

Abstract

The utility model discloses a reason embryo machine system, include: the device comprises a blank material level detection sensor, a controller, a motion unit and a switch control box; the blank material level detection sensor is arranged in a hopper of the blank finishing machine and is connected with the controller, and the controller is used for collecting the measurement information of the blank material level detection sensor; the switch control box is connected with the moving unit, and the switch control box and the moving unit are used for opening or closing the hopper cover of the blank machine. The utility model provides a reason embryo machine system includes stock material level detection sensor and controller, can judge the material position of stock in the material automatically through stock material level detection sensor and controller, the operating personnel of being convenient for adds the stock or stops to add the stock in to the hopper according to the material position, this system still disposes on-off control box and motion unit, switching and closing of control hopper cover that can be convenient through on-off control box and motion unit guarantee the personal safety of operating personnel when adding the stock.

Description

Blank arranging machine system

Technical Field

The embodiment of the utility model provides a packaging equipment technique especially relates to a reason embryo machine system.

Background

The blank arranging machine is mainly used for arranging scattered blanks (such as bottle blanks) in an array so that the subsequent packaging process can be normally carried out.

At present, whether blank is required to be added into a hopper of a blank arranging machine is mainly determined manually, the labor cost is high, in addition, when the blank is added, the problem that a blank hopper cover is closed abnormally before operators evacuate safely exists, and the blank arranging machine has certain potential safety hazards.

Along with the higher requirements on production efficiency and production safety, the embryo sorting machine is required to automatically judge the material position of the embryo in the hopper and realize the reliable control of the cover of the embryo hopper.

SUMMERY OF THE UTILITY MODEL

The utility model provides a reason embryo machine system to reach the purpose that improves reason embryo machine degree of automation and safety in utilization.

The embodiment of the utility model provides a reason embryo machine system, include: the device comprises a blank material level detection sensor, a controller, a motion unit and a switch control box;

the blank material level detection sensor is arranged in a hopper of the blank arranging machine and connected with the controller, and the controller is used for collecting the measurement information of the blank material level detection sensor;

the switch control box is connected with the moving unit, and the switch control box and the moving unit are used for opening or closing the hopper cover of the blank machine.

Optionally, the moving unit comprises an electromagnetic valve and a moving device;

the switch control box is connected with the electromagnetic valve, and the electromagnetic valve is connected with the movement device;

the switch control box is provided with at least one starting button and at least one stopping button, the starting button has the function of opening the blank machine hopper cover, and the stopping button has the function of closing the blank machine hopper cover.

Optionally, the electromagnetic valve includes a hopper cover opening electromagnetic valve and a hopper cover closing electromagnetic valve;

the hopper cover opening electromagnetic valve and the hopper cover closing electromagnetic valve are respectively connected with the switch control box.

Optionally, the switch control box is configured with a first intermediate relay and a second intermediate relay;

the starting button is connected with a first normally open contact of the first intermediate relay and a first normally closed contact of the second intermediate relay;

the stop button is connected with a second normally open contact of the second intermediate relay and a second normally closed contact of the first intermediate relay;

the first intermediate relay is connected with the hopper cover opening electromagnetic valve, and the second intermediate relay is connected with the hopper cover closing electromagnetic valve.

Optionally, the blank level detection sensor includes a blank first position detection sensor and a blank second position detection sensor;

the controller and the blank first position detection sensor are used for judging whether the blank material level is at a first position;

the controller and the blank second position detection sensor are used for judging whether the blank material level is at a second position.

Optionally, the start button and the stop button are jog buttons.

Optionally, the movement means comprises a pneumatic cylinder.

Optionally, the controller is a PLC controller.

Optionally, the switch control box is configured with a 24V power supply.

Optionally, the switch control box is arranged on the blank machine.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model provides a reason embryo machine system, it includes stock material level detection sensor and controller, can judge the material position of stock in the material automatically through stock material level detection sensor and controller, the operating personnel of being convenient for adds the stock or stops to add the stock in to the hopper according to the material position, this system still disposes on-off control box and motion unit, switching and closing through the control hopper lid that on-off control box and motion unit can be convenient, guarantee the personal safety of operating personnel when adding the stock.

Drawings

FIG. 1 is a block diagram of a system of an embryo sorting machine in an embodiment;

FIG. 2 is a block diagram of another system of the embryo sorting machine in the embodiment;

FIG. 3 is a block diagram of another system of the embryo sorting machine in the embodiment;

fig. 4 is a block diagram of the switch control box in the embodiment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some of the structures associated with the present invention are shown in the drawings, not all of them.

Fig. 1 is a block diagram of a system of an embryo sorting machine in an embodiment, and referring to fig. 1, the system of the embryo sorting machine includes: a blank level detecting sensor 100, a controller 200, a switch control box 300, and a moving unit 400.

The blank material level detection sensor 100 is installed in a hopper of the blank machine, the blank material level detection sensor 100 is connected with the controller 200, and the controller 200 is used for collecting the measurement information of the blank material level detection sensor 100.

The switch control box 300 is connected to the moving unit 400, and the switch control box 300 and the moving unit 400 are used to open or close the hopper cover of the blank machine.

In this embodiment, the blank arranging machine includes a hopper and a hopper cover, wherein the hopper is used for accommodating the blank, the blank can be added into the hopper when the hopper cover is opened, and the hopper is closed when the hopper cover is closed.

For example, in the present embodiment, the controller 200 and the blank level detecting sensor 100 are used to determine the level of the blank in the hopper, and specifically, the controller 200 may be configured to:

collecting the measurement information of the blank material level detection sensor 100, and judging whether the material level is at a high level or a low level according to the measurement information;

when the material level is at a high level, the controller 200 generates high-level prompt information, wherein the high-level prompt information is used for prompting that the blank addition into the hopper is stopped;

when the material level is at a low level, the controller 200 generates low-level prompt information, wherein the low-level prompt information is used for prompting addition of the blanks into the hopper.

For example, in the present embodiment, the type and number of the blank level detection sensors 100 are not particularly limited, and the blank level detection sensors 100 may be a photoelectric sensor, an ultrasonic sensor, or the like.

For example, in one possible embodiment, the blank level detection sensor includes a first blank position detection sensor and a second blank position detection sensor.

In an exemplary embodiment, the controller and the first position detecting sensor are configured to determine whether the material level of the blank is at a first position (high level);

the controller and the blank second position detection sensor are used for judging whether the blank material level is at a second position (low level).

In the present embodiment, the first position detecting sensor and the second position detecting sensor are photosensors, for example.

For example, in this embodiment, the type of the controller 200 is not specifically limited, and the controller 200 may be a single chip microcomputer, an industrial personal computer, a PLC, a computer, a mobile terminal, or the like.

For example, in the present embodiment, the type of the moving unit 400 is not particularly limited, and the moving unit may include a motor or an air cylinder according to design requirements.

In the present embodiment, the switch control box 300 is configured with an operation button, the operation button is connected to the moving unit 400 through a control circuit inside the switch control box 300, and the switch control box 300 is configured to open or close the hopper cover by controlling the moving unit 400.

For example, in the present embodiment, the type and number of the operation buttons configured on the switch control box 300 are not specifically limited;

for example, when the motion unit includes a motor, a forward rotation button, a reverse rotation button, and a stop button may be provided, and when the motion unit includes a cylinder, a start button and a stop button may be provided.

For example, in this embodiment, the circuit structure is not specifically limited, and the circuit structure may be designed correspondingly according to the type of the operation button and the specific type of the motion unit.

For example, in this embodiment, the setting position of the switch control box can be set according to the requirement, for example, in order to observe the switch control state of the hopper cover, the switch control box can be set on the embryo material machine.

This embodiment provides a reason embryo machine system, it includes stock material level detection sensor and controller, can judge the material position of stock in the material automatically through stock material level detection sensor and controller, the operating personnel of being convenient for adds the stock or stops to add the stock in to the hopper according to the material position, this system still disposes on-off control box and motion unit, through the switching and closing of control hopper lid that on-off control box and motion unit can be convenient, guarantee the personal safety of operating personnel when adding the stock.

Fig. 2 is a block diagram of another system structure of the embryo sorting machine in the embodiment, and referring to fig. 2, on the basis of the solution shown in fig. 1, the moving unit includes an electromagnetic valve 401 and a moving device 402, the switch control box 300 is connected with the electromagnetic valve 401, and the electromagnetic valve 401 is connected with the moving device 402.

In this embodiment, the moving device 402 is an air cylinder, and the air cylinder is used as an executing component, and is specifically used for driving the hopper cover of the blank machine to move to an open or closed position.

In the present embodiment, the switch control box 300 is configured with at least one start button for opening the lid of the blank machine hopper and at least one stop button for closing the lid of the blank machine hopper.

For example, in this embodiment, the electromagnetic valve 401 may be: when the solenoid valve 401 is energized, the flow direction of the medium flowing through the motion device 402 through the solenoid valve 401 is a first direction, and when the solenoid valve 401 is energized, the flow direction of the medium flowing through the motion device 402 through the solenoid valve 401 is a second direction, wherein the flow directions corresponding to the first direction and the second direction are opposite.

In this embodiment, the work process of the blank sorting machine system may be as follows:

when a start button is pressed, the electromagnetic valve 401 is electrified, and when the electromagnetic valve 401 is electrified, the moving device 402 drives the hopper cover to an opening position;

when the stop button is pressed down, the electromagnetic valve 401 is de-energized, and the electromagnetic valve 401 is energized, the moving device 402 drives the hopper cover to a closed position.

FIG. 3 is a block diagram of another system of the embryo sorting machine in the embodiment, referring to FIG. 3, based on the solution shown in FIG. 2, the solenoid valves may include a hopper cover opening solenoid valve 4011 and a hopper cover closing solenoid valve 4012.

The hopper cover opening solenoid valve 4011 and the hopper cover closing solenoid valve 4012 are connected to the switch control box 300, respectively, and the hopper cover opening solenoid valve 4011 and the hopper cover closing solenoid valve 4012 are also connected to the moving device 402, respectively.

For example, according to the scheme, the electromagnetic valves can adopt a hopper cover opening electromagnetic valve 4011 and a hopper cover closing electromagnetic valve 4012 according to the types of the adopted electromagnetic valves;

when the hopper cover opening solenoid valve 4011 is configured to be energized, the flow direction of the medium flowing through the moving device is a first direction, and when the hopper cover closing solenoid valve 4012 is energized, the flow direction of the medium flowing through the moving device is a second direction, wherein the flow directions corresponding to the first direction and the second direction are opposite.

In this scheme, when the blank arranging machine system works, the process when the hopper cover needs to be opened may be as follows:

the control stop button is at a first initial position, at which time, the hopper cover off solenoid valve 4012 is de-energized, and the medium does not flow to the moving device 402 through the hopper cover off solenoid valve 4012;

the control start button is in the first position, and at this moment, hopper lid open solenoid valve 4011 gets electric, and the medium flows through telecontrol equipment 402 along the first direction through hopper lid open solenoid valve 4011, and telecontrol equipment 402 drives the hopper lid to the open position.

The process when the hopper cover needs to be closed can be as follows:

the control start button is in a second initial position, at this time, the hopper cover opening solenoid valve 4011 is de-energized, and the medium does not flow to the moving device 402 through the hopper cover opening solenoid valve 4011;

the control stop button is in the second position, at this time, the hopper cover off solenoid valve 4012 is energized, the medium flows through the moving device 402 in the second direction through the hopper cover off solenoid valve 4012, and the moving device 402 drives the hopper cover to the closed position.

Fig. 4 is a block diagram of the switch control box in the embodiment, and referring to fig. 4, the switch control box is provided with a start button 31, a stop button 32, a first intermediate relay KA11, a second intermediate relay KA12, a hopper cover opening solenoid valve 4011, and a hopper cover closing solenoid valve 4012, in addition to the configuration shown in fig. 3.

Referring to fig. 4, the start button 31 is connected with a first normally open contact KA11-1 of the first intermediate relay KA11 and a first normally closed contact KA12-2 of the second intermediate relay KA 12;

the stop button 32 is connected to a second normally open contact KA12-1 of the second intermediate relay KA12 and a second normally closed contact KA11-2 of the first intermediate relay KA 11.

In the scheme, for example, a starting button 31, a first intermediate relay KA11 and a hopper cover opening solenoid valve 4011 are configured to control a moving device to open a hopper cover of the blank machine;

the stop button 32, the second intermediate relay KA12, and the hopper cover closing solenoid valve 4012 are provided for controlling the moving device to close the hopper cover of the blank machine.

In the present embodiment, the start button 31 and the stop button 32 are jog buttons, for example.

In this embodiment, the process when the hopper cover needs to be opened may be:

after the starting button 31 is pressed, the first normally open contact KA11-1 is closed, and the first normally open contact KA11-1 is maintained to be closed through the self-locking structure by the first intermediate relay KA 11;

after the first normally-open contact KA11-1 is closed, the first intermediate relay KA11 is electrified, so that the hopper cover opening electromagnetic valve 4011 is electrified, and the moving device drives the hopper cover to an opening position;

in the process, when the start button 31 is pressed, the first normally-closed contact KA12-2 is disconnected, the reset structure of the second intermediate relay KA12 ensures that the second normally-open contact KA12-1 is disconnected, and the first intermediate relay KA11 and the second intermediate relay KA12 cannot be powered simultaneously.

The process when the hopper cover needs to be closed can be as follows:

after the stop button 32 is pressed, the second normally open contact KA12-1 is closed, and the second normally open contact KA12-1 is maintained to be closed through the self-locking structure by the second intermediate relay KA 12;

after the second normally-open contact KA12-1 is closed, the second intermediate relay KA12 is electrified, so that the hopper cover closing electromagnetic valve 4012 is electrified, and the moving device drives the hopper cover to a closed position;

in the process, when the stop button 32 is pressed, the second normally-closed contact KA11-2 is disconnected, the reset structure of the first intermediate relay KA11 ensures that the first normally-open contact KA11-1 is disconnected, and the first intermediate relay KA11 and the second intermediate relay KA12 cannot be electrified simultaneously.

For example, in the present solution, the color of the start button may be configured to be a first color (e.g., white), and the color of the stop button may be configured to be a second color (e.g., green).

Illustratively, in the present solution, the switch control box is provided with a 24V power supply, and the 24V power supply is used as an operating power supply for the first intermediate relay KA11 and the second intermediate relay KA 12.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. An embryo sorting machine system, comprising: the device comprises a blank material level detection sensor, a controller, a motion unit and a switch control box;

the blank material level detection sensor is arranged in a hopper of the blank arranging machine and connected with the controller, and the controller is used for collecting the measurement information of the blank material level detection sensor;

the switch control box is connected with the moving unit, and the switch control box and the moving unit are used for opening or closing the hopper cover of the blank machine.

2. The blank arranging machine system of claim 1, wherein the moving unit comprises a solenoid valve and a moving device;

the switch control box is connected with the electromagnetic valve, and the electromagnetic valve is connected with the movement device;

the switch control box is provided with at least one starting button and at least one stopping button, the starting button has the function of opening the blank machine hopper cover, and the stopping button has the function of closing the blank machine hopper cover.

3. The blank handler system of claim 2, wherein the solenoid valve comprises a hopper cover open solenoid valve, a hopper cover closed solenoid valve;

the hopper cover opening electromagnetic valve and the hopper cover closing electromagnetic valve are respectively connected with the switch control box.

4. The blank sorting machine system of claim 3, wherein the switch control box is configured with a first intermediate relay, a second intermediate relay;

the starting button is connected with a first normally open contact of the first intermediate relay and a first normally closed contact of the second intermediate relay;

the stop button is connected with a second normally open contact of the second intermediate relay and a second normally closed contact of the first intermediate relay;

the first intermediate relay is connected with the hopper cover opening electromagnetic valve, and the second intermediate relay is connected with the hopper cover closing electromagnetic valve.

5. The system of claim 1, wherein the stock level detection sensor comprises a first stock position detection sensor, a second stock position detection sensor;

the controller and the blank first position detection sensor are used for judging whether the blank material level is at a first position;

the controller and the blank second position detection sensor are used for judging whether the blank material level is at a second position.

6. The blank management machine system of claim 4, wherein the start button and the stop button are jog buttons.

7. The blank management system of claim 2, wherein the movement device comprises a pneumatic cylinder.

8. The blank handling system of claim 1, wherein the controller is a PLC controller.

9. The blank handling system of claim 1, wherein the switch control box is configured with a 24V power supply.

10. The system of claim 1, wherein the switch control box is disposed on the embryo feeder.

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