CN213997033U - Self-cleaning device of packaging equipment - Google Patents

Abstract

The utility model relates to a self-cleaning device of packaging equipment, which consists of a pneumatic structure and an electric control structure, wherein the pneumatic structure comprises a main air inlet pipeline, one end of the main air inlet pipeline is connected with a main air source of the packaging equipment, the other end of the main air inlet pipeline is connected with an inlet of a filter, an outlet of the filter is connected with one end of an air outlet pipeline, and the other end of the air outlet pipeline is connected with an air nozzle; the electric control structure comprises a selection switch, a manual switch, an intermediate relay, a pneumatic execution valve and a PLC controller. According to the technical scheme, the air guide electromagnetic valve is controlled to guide the air to pass through according to the set time interval under the action of the electric control structure, the compressed air source is controlled to automatically clean the equipment at regular time, and the problems that the existing GDX2 type packaging machine is difficult to clean and the workload is large are solved.

Description

Self-cleaning device of packaging equipment

Technical Field

The utility model belongs to the technical field of GDX2 type equipment for packing auxiliary device, especially indicate a be used for GDX2 type equipment for packing automatically cleaning device specially.

Background

GDX2 type packagine machine is the important production facility of present tobacco enterprise cigarette package portion, and the influence of its structure of this equipment and appearance, health dead angle are more, in process of production, very easily remain pipe tobacco, tobacco powder, tobacco soil etc. if do not clear away for a long time, will accompany the greasy dirt to form and attach to the equipment surface at greasy, extremely difficult clearance not only causes the on-the-spot health of equipment not up to standard, causes the influence to the administrative level of department, seriously increases clean degree of difficulty and work load simultaneously.

How to clean the residual cut tobacco, tobacco powder or tobacco soil and the like in the production process relates to the problem of improving the lean level of equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a equipment for packing automatically cleaning device to there is the problem that clean degree of difficulty and work load are big in solving present GDX2 type packagine machine.

The utility model discloses a realize through following technical scheme:

a self-cleaning device of packaging equipment consists of a pneumatic structure and an electric control structure, wherein the pneumatic structure comprises a main air inlet pipeline, one end of the main air inlet pipeline is connected with a main air source of the packaging equipment, the other end of the main air inlet pipeline is connected with an inlet of a filter, an outlet of the filter is connected with one end of an air outlet pipeline, and the other end of the air outlet pipeline is connected with an air nozzle;

the electric control structure comprises a selection switch, a manual switch, an intermediate relay, a pneumatic execution valve and a PLC (programmable logic controller);

the positive pole of the power supply is connected with the current inlet end of the selection switch through a lead, the manual switch contact of the selection switch is connected with the current inlet end of the manual switch through a lead, and the automatic switch contact of the selection switch is connected with the input end of the PLC through a lead;

the current output end of the manual switch and the output end of the PLC are connected with a starting coil of the intermediate relay;

one end of a normally open contact of the intermediate relay is connected with the positive electrode of the power supply, and the other end of the normally open contact of the intermediate relay is connected with the pneumatic execution valve;

the PLC, the intermediate relay and the pneumatic execution valve are all connected with the negative electrode of a power supply.

Preferably, the air outlet pipelines comprise a first air outlet pipeline, a second air outlet pipeline, a third air outlet pipeline, a fourth air outlet pipeline and a fifth air outlet pipeline;

and the outlet of the filter is respectively connected with one end of a first air outlet pipeline, one end of a second air outlet pipeline, one end of a third air outlet pipeline, one end of a fourth air outlet pipeline and one end of a fifth air outlet pipeline.

Preferably, the air nozzles comprise a first air nozzle, a second air nozzle, a third air nozzle, a fourth air nozzle and a fifth air nozzle;

the first air outlet pipeline is communicated with the smoke warehouse, and a first air nozzle is arranged at the other end of the first air outlet pipeline;

the second gas outlet pipeline is communicated with the first wheel, and a second nozzle is arranged at the other end of the second gas outlet pipeline;

the third gas outlet pipeline is communicated with a third wheel, and a third nozzle is arranged at the other end of the third gas outlet pipeline;

the fourth gas outlet pipeline is communicated with a fifth wheel, and a fourth nozzle is arranged at the other end of the fourth gas outlet pipeline;

the fifth gas outlet pipeline is communicated with the turret, and a fifth nozzle is arranged at the other end of the fifth gas outlet pipeline.

Preferably, the cable conveying bridge comprises a sixth air outlet pipeline, one end of the sixth air outlet pipeline is connected with the outlet of the filter, the other end of the sixth air outlet pipeline leads to the cable conveying bridge, and a sixth nozzle is installed at the other end of the sixth air outlet pipeline.

The utility model has the advantages that:

according to the technical scheme, the air guide electromagnetic valve is controlled to guide through according to the set time interval under the action of the electric control structure, and the compressed air source is controlled to automatically clean the equipment at regular time.

Drawings

FIG. 1 is a schematic view of the pneumatic structure of the present invention;

fig. 2 is a schematic diagram of the electric control structure of the present invention.

Description of the reference numerals

The air conditioner comprises a main air source 1, a main air inlet pipeline 2, a filter 3, an air outlet pipeline 4, a pneumatic execution valve 5, an air nozzle 6, an S1 selection switch, an S2 manual switch, a K1 intermediate relay and a K2 intermediate relay.

Detailed Description

The technical solutions of the present invention are described in detail below by way of examples, which are only exemplary and can be used only for explaining and explaining the technical solutions of the present invention, but should not be construed as limiting the technical solutions of the present invention.

As shown in fig. 1 and 2, the present application provides a self-cleaning device of a GDX2 type packaging device, which is composed of two parts, namely a pneumatic structure and an electric control structure.

Wherein pneumatic structure includes main air inlet pipeline 2, and main air inlet pipeline is connected with GDX2 type packagine machine's main gas source 1, and the other end of main air inlet pipeline is connected with the entry of filter 3, and the exit linkage who passes through the filter of compressed air after the filtration goes out the one end of air pipe way 4, and in this embodiment, goes out the air pipe way and includes five ways altogether, and in other embodiments of this application, it can also include six ways or seven ways etc. and presume as required to go out the air pipe way.

In this embodiment, the air outlet pipeline 4 includes a first air outlet pipeline, a second air outlet pipeline, a third air outlet pipeline, a fourth air outlet pipeline and a fifth air outlet pipeline; the outlet of the filter is respectively connected with one end of the first air outlet pipeline, one end of the second air outlet pipeline, one end of the third air outlet pipeline, one end of the fourth air outlet pipeline and one end of the fifth air outlet pipeline.

The air nozzles 6 include a first air nozzle, a second air nozzle, a third air nozzle, a fourth air nozzle, and a fifth air nozzle.

The first air outlet pipeline leads to the ZB45 smoke warehouse, and a first air nozzle is arranged at the other end of the first air outlet pipeline.

The second air outlet pipeline leads to the first wheel, and a second nozzle is arranged at the other end of the second air outlet pipeline.

The third air outlet pipeline leads to the third wheel, and a third nozzle is arranged at the other end of the third air outlet pipeline.

The fourth air outlet pipeline leads to the fifth wheel, and a fourth nozzle is arranged at the other end of the fourth air outlet pipeline.

The fifth outlet pipeline leads to the ZB55 turret, and a fifth nozzle is arranged at the other end of the fifth outlet pipeline.

In other embodiments of the present application, a sixth air outlet pipeline is further included, one end of the sixth air outlet pipeline is connected to the outlet of the filter, the other end of the sixth air outlet pipeline leads to the cable conveying bridge, and a sixth nozzle is installed at the other end of the sixth air outlet pipeline.

As shown in fig. 2, the electric control structure includes a selection switch S1, a manual switch S2, an intermediate relay K1, a pneumatic actuator valve 5, and a PLC controller.

The positive pole of the power supply is connected with the current inlet end of the selection switch through a lead, the manual switch contact of the selection switch is connected with the current inlet end of the manual switch through a lead, and the automatic switch contact of the selection switch is connected with the input end of the PLC through a lead.

The current output end of the manual switch and the output end of the PLC are connected with the starting coil of the intermediate relay. One end of a normally open contact K2 of the intermediate relay is connected with the positive electrode of the power supply, and the other end of the normally open contact K2 of the intermediate relay is connected with the pneumatic execution valve. The PLC, the intermediate relay and the pneumatic execution valve are all connected with the negative pole of the power supply.

The self-cleaning device can be selected by a full-automatic cleaning mode and a manual auxiliary cleaning mode, and an operator can select the cleaning mode in real time according to the field requirement.

When the full-automatic cleaning mode is selected, the whole cleaning system is controlled by the PLC, and the compressed air can realize the intermittent automatic cleaning effect through the main air source, the main air inlet pipeline, the filter, the air outlet pipeline and the air nozzle in a certain time interval mode. When the manual auxiliary cleaning mode is selected, the cleaning system is switched to the manual control mode, and an operator can trigger the manual switch according to the cleaning time and the cleaning duration, so that the aim of controlling cleaning in real time is fulfilled.

The control mode of the full-automatic cleaning mode is as follows: after the command selection control area receives the automatic state command, transmitting the command to the electric control area; after receiving the automatic instruction, the electric control area enters an automatic control mode according to a program logic control mode, starts to execute a certain interval to output once, delays a certain interval to close the output, and transmits the control mode to the pneumatic execution area; and after the pneumatic execution area receives the control mode, the control signal is transmitted to the execution terminal, and the execution terminal controls the gas circuit to be conducted, so that the automatic cleaning function is completed. The method specifically comprises the following steps: the operator manually rotates the selector switch S1 to the automatic mode. And the central PLC program input condition is satisfied. After the running signal and the automatic mode signal are switched on, the program starts to automatically execute an intermittent output function, wherein the output end is Q0.0. Q0.0 is output to intermediate relay K1, intermediate relay K1 coil actuation, intermediate relay's normally open contact K2 is closed, DC24V sends to pneumatic executive valve 5, and pneumatic executive valve gets the electricity switch-on back, and compressed air is sent to the air nozzle, carries out clean function.

The manual cleaning mode is controlled as follows: after the command selection control area receives the manual state command, a manual control program is started, an operator can manually trigger the cleaning function as required, and the cleaning time is controlled along with the trigger time. Specifically, an operator manually rotates the selector switch S1 to a manual mode, at this time, the manual switch S2 serves as a signal input command sending end, when the manual switch S2 is pressed, the power supply positive plate sends DC24V to the intermediate relay K1, the intermediate relay K1 coil is attracted, the normally open contact of the intermediate relay is closed, and the circuit of the pneumatic execution valve is connected to pass through.

The above embodiments are only specific embodiments of the present invention, but the scope of protection of the present invention is not limited thereto, and any changes or substitutions that are not thought of through creative work should be covered within the scope of protection of the present invention, and therefore, the scope of protection of the present invention should be subject to the scope of protection defined by the claims.

Claims (4)

1. A self-cleaning device of packaging equipment is characterized by comprising a pneumatic structure and an electric control structure, wherein the pneumatic structure comprises a main air inlet pipeline, one end of the main air inlet pipeline is connected with a main air source of the packaging equipment, the other end of the main air inlet pipeline is connected with an inlet of a filter, an outlet of the filter is connected with one end of an air outlet pipeline, and the other end of the air outlet pipeline is connected with an air nozzle;

the electric control structure comprises a selection switch, a manual switch, an intermediate relay, a pneumatic execution valve and a PLC (programmable logic controller);

the positive pole of the power supply is connected with the current inlet end of the selection switch through a lead, the manual switch contact of the selection switch is connected with the current inlet end of the manual switch through a lead, and the automatic switch contact of the selection switch is connected with the input end of the PLC through a lead;

the current output end of the manual switch and the output end of the PLC are connected with a starting coil of the intermediate relay;

one end of a normally open contact of the intermediate relay is connected with the positive electrode of the power supply, and the other end of the normally open contact of the intermediate relay is connected with the pneumatic execution valve;

the PLC, the intermediate relay and the pneumatic execution valve are all connected with the negative electrode of a power supply.

2. The self-cleaning device for packaging equipment of claim 1, wherein the gas outlet pipes comprise a first gas outlet pipe, a second gas outlet pipe, a third gas outlet pipe, a fourth gas outlet pipe and a fifth gas outlet pipe;

and the outlet of the filter is respectively connected with one end of a first air outlet pipeline, one end of a second air outlet pipeline, one end of a third air outlet pipeline, one end of a fourth air outlet pipeline and one end of a fifth air outlet pipeline.

3. The self-cleaning device of claim 2, wherein the air nozzles comprise a first air nozzle, a second air nozzle, a third air nozzle, a fourth air nozzle and a fifth air nozzle;

the first air outlet pipeline is communicated with the smoke warehouse, and a first air nozzle is arranged at the other end of the first air outlet pipeline;

the second gas outlet pipeline is communicated with the first wheel, and a second nozzle is arranged at the other end of the second gas outlet pipeline;

the third gas outlet pipeline is communicated with a third wheel, and a third nozzle is arranged at the other end of the third gas outlet pipeline;

the fourth gas outlet pipeline is communicated with a fifth wheel, and a fourth nozzle is arranged at the other end of the fourth gas outlet pipeline;

the fifth gas outlet pipeline is communicated with the turret, and a fifth nozzle is arranged at the other end of the fifth gas outlet pipeline.

4. The self-cleaning device for the packaging equipment as claimed in claim 3, wherein the gas outlet pipeline comprises a sixth gas outlet pipeline, one end of the sixth gas outlet pipeline is connected with the outlet of the filter, the other end of the sixth gas outlet pipeline leads to the cable conveying bridge, and a sixth nozzle is installed at the other end of the sixth gas outlet pipeline.

Images