CN218963542U - Cleaning equipment for filter rod tray and cigarette preparation system - Google Patents

Abstract

The utility model relates to the field of cigarette production, and discloses a cleaning device and a cigarette preparation system for a filter rod tray, wherein the cleaning device for the filter rod tray comprises a tray detector for detecting whether the filter rod tray exists in a cleaning area on a filter rod tray moving path; the spray head assembly is arranged above the cleaning area and is used for spraying air into the filter rod tray to clean residual filter rods; the air source device is communicated with the spray head assembly through an air channel pipeline, and a first electromagnetic valve is arranged on the air channel pipeline between the spray head assembly and the air source device; and the controller is connected with the tray detector and the first electromagnetic valve and is used for controlling the first electromagnetic valve to be opened when the tray detector detects that the filter stick tray exists in the cleaning area, so that the nozzle component sprays gas. In this application, spray high-pressure gas to the filter rod tray in through this shower nozzle subassembly and realize clearing up remaining filter rod in the filter rod tray, realize remaining automatic clearance of filter rod in the filter rod tray, use manpower sparingly material resources.

Description

Cleaning equipment for filter rod tray and cigarette preparation system

Technical Field

The utility model relates to the field of cigarette production, in particular to cleaning equipment for a filter rod tray and a cigarette preparation system.

Background

The cigarette filter stick is an important component of the cigarette; in the cigarette production and preparation process, a filter rod tray bearing filter rods needs to be conveyed to a transmitter of a wrapping workshop through a conveyor, and after the transmitter uses the filter rods brought by the filter rod tray, the empty filter rod tray is returned to a warehouse through the conveyor. However, in actual production, residual filter rods are inevitably left in the empty filter rod tray; when the filter stick tray with the residual filter sticks is transported by the conveyor and the stacker, the residual filter sticks drop into filter stick materials with other goods spaces or other brands of specifications, so that serious filter stick mixing quality accidents are caused. The prior art solves the problems that the process is complicated and the labor is wasted because each warehouse-back filter stick tray is manually confirmed and the residual filter sticks are cleaned.

Disclosure of Invention

The utility model aims to provide a cleaning device for a filter rod tray and a cigarette preparation system, which can save the labor consumed by detecting the residual filter rods on the filter rod tray to a certain extent and ensure the cleaning effect of the residual filter rods on the filter rod tray.

In order to solve the technical problem, the utility model provides cleaning equipment for a filter rod tray, which comprises:

a tray detector for detecting whether a filter rod tray exists in a cleaning area on a filter rod tray moving path;

the spray head assembly is arranged above the cleaning area and is used for spraying air into the filter rod tray to clean residual filter rods;

the air source device is communicated with the spray head assembly through an air channel pipeline, and a first electromagnetic valve is arranged on the air channel pipeline between the spray head assembly and the air source device;

and the controller is connected with the tray detector and the first electromagnetic valve and is used for controlling the first electromagnetic valve to be opened when the tray detector detects that the filter stick tray exists in the cleaning area, so that the nozzle component sprays gas.

In another alternative embodiment of the present application, a recovery device is further included, disposed below the cleaning zone, for recovering the residual filter rod.

In another alternative embodiment of the present application, the inner wall of the recycling device is a funnel-shaped inner wall.

In another alternative embodiment of the present application, the tray detector is a photo detection switch.

In another alternative embodiment of the present application, the spray head assembly includes at least two universal adjustable spray heads.

In another optional embodiment of the present application, a first oil-water separation filtering pressure regulating valve and an electrostatic neutralization eliminator are further disposed on a gas path pipeline where the spray head assembly and the gas source device are communicated.

In another alternative embodiment of the present application, the filter rod cleaning device further comprises tray holding assemblies arranged at two sides of the cleaning area and used for holding the filter rod tray when the spray head assembly sprays air into the filter rod tray.

In another optional embodiment of the present application, the tray holding component is a pneumatic holding component that is communicated with the air source device, and a second electromagnetic valve that is connected with the controller is disposed on an air path pipeline that is communicated with the tray holding component and the air source device.

In another optional embodiment of the present application, a second oil-water separation filtering pressure regulating valve is further disposed on a gas path pipeline that is communicated with the tray holding assembly and the gas source device.

A cigarette preparation system comprising a cleaning apparatus for a filter rod tray as claimed in any one of the preceding claims.

The utility model provides cleaning equipment of a filter rod tray and a cigarette preparation system, wherein the cleaning equipment of the filter rod tray comprises a tray detector for detecting whether the filter rod tray exists in a cleaning area on a filter rod tray moving path; the spray head assembly is arranged above the cleaning area and is used for spraying air into the filter rod tray to clean residual filter rods; the air source device is communicated with the spray head assembly through an air channel pipeline, and a first electromagnetic valve is arranged on the air channel pipeline between the spray head assembly and the air source device; and the controller is connected with the tray detector and the first electromagnetic valve and is used for controlling the first electromagnetic valve to be opened when the tray detector detects that the filter stick tray exists in the cleaning area, so that the nozzle component sprays gas.

The utility model provides a set up the tray detector on the travel path of filter rod tray in this application, when the clearance region on the travel path was reached to the filter rod tray, then the first solenoid valve of controller can automatic control was opened, and then makes the air supply device carry high-pressure gas to the shower nozzle subassembly, sprays high-pressure gas in to the filter rod tray through this shower nozzle subassembly and realizes clearing up remaining filter rod in the filter rod tray. The whole process does not need to be manually participated, so that automatic cleaning of residual filter sticks in the filter stick tray is realized, and manpower and material resources are saved.

Drawings

For a clearer description of embodiments of the utility model or of the prior art, the drawings that are used in the description of the embodiments or of the prior art will be briefly described, it being apparent that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of a filter rod tray;

fig. 2 is a schematic structural diagram of a cleaning device for a filter rod tray according to an embodiment of the present application.

Detailed Description

As shown in fig. 1, fig. 1 is a schematic structural view of a filter rod tray, and the filter rod tray 1 has a rectangular parallelepiped structure with an upper surface and a front side removed. This filter rod tray 1 is born the weight of transportation filter rod in-process, produces static easily on the filter tray 1, just makes the filter rod persist easily on filter tray 1 and carry out from the package workshop transmitter along with the conveyer, and then makes filter rod tray 1 in the in-process from package workshop transmitter to the back storehouse, and its surface remaining filter rod probably drops to bear in the filter rod tray 1 of other kind filter rods.

In the process of manually checking whether residual filter sticks exist in the filter stick tray, special manpower and material resources are needed to be consumed, and on the other hand, the manual checking process is boring and easy to generate fatigue so as to cause the condition of missed checking.

For this reason, provide one kind in this application and can clear up the technical scheme of remaining filter rod in the filter rod tray automatically, both reduced human labor, guaranteed the cleaning effect to remaining filter rod in the filter rod tray again.

In order to better understand the aspects of the present utility model, the present utility model will be described in further detail with reference to the accompanying drawings and detailed description. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Fig. 2 is a schematic structural view of a cleaning device for a filter rod tray according to an embodiment of the present application, as shown in fig. 2. This cleaning equipment of filter rod tray includes:

a tray detector 2 for detecting whether or not a filter rod tray 1 is present in a cleaning area on a filter rod tray moving path;

a nozzle assembly 3 arranged above the cleaning area and used for jetting air into the filter rod tray 1 to clean residual filter rods;

the air source device 4 is communicated with the spray head assembly 3 through an air channel pipeline, and a first electromagnetic valve 51 is arranged on the air channel pipeline between the spray head assembly 3 and the air source device 4;

and a controller 6 connected with the tray detector 2 and the first electromagnetic valve 51, and used for controlling the first electromagnetic valve 51 to be opened when the tray detector 2 detects that the filter rod tray 1 exists in the cleaning area, so that the nozzle assembly 5 sprays gas.

It will be understood that the cleaning area on the moving path of the filter rod tray 1 in this embodiment refers to a location area on the moving path of the filter rod tray 1 from the wrapping machine to the returning warehouse along with the conveying of the conveyor, and the specific location of the cleaning area can be determined according to the layout of each equipment component in the on-site production workshop, so long as the residual filter rods on the filter rod tray 1 can be cleaned before the residual filter rods on the filter rod tray 1 are mixed with other filter rods.

In this embodiment, the tray detector 2 for detecting the filter rod tray 1 is disposed in the cleaning area, when the tray detector 2 detects that the filter rod tray 1 has reached the cleaning area, it indicates that the filter rod tray 1 located in the cleaning area can be cleaned by residual filter rods, and at this time, the tray detector 2 can send a signal like a controller to detect that the filter rod tray 1 exists in the cleaning area.

The controller 6, upon receiving the detection signal from the tray detector 2, controls the shower head assembly 3 to spray gas onto the filter rod tray 1, thereby blowing off the filter rods attached to the filter rod tray 1.

The spray head assembly 3 may include a spray head; and the nozzle assembly 3 is connected with the air source device 4, and a first electromagnetic valve 51 is arranged on an air path pipeline between the air source device 4 and the nozzle assembly 3. In the embodiment shown in fig. 2, the first solenoid valve 51 may be a two-position two-way battery valve, and the first solenoid valve 51 and the controller 6 are connected through a first relay 71, that is, the opening and closing of the first solenoid valve 51 is performed by the controller 6 through the control of the first relay 71.

Therefore, when the controller 6 controls the first electromagnetic valve 51 to be opened, the air passage between the air source device 4 and the nozzle assembly 3 is opened, high-pressure air obtained by compressing air by the air source device 4 can be conveyed to the nozzle assembly 3 through the air passage pipeline, and the high-pressure air is sprayed into the filter rod tray 1 from the nozzle in the nozzle assembly 3, so that residual filter rods in the filter rod tray 1 are removed.

Based on the above discussion, in this application to the filter rod tray 1 in the residual filter rod clear up the in-process, whether remain the filter rod in the filter rod tray 1 detects, but only detect whether there is filter rod tray 1 in the clearance region, and whether there is residual filter rod in the filter rod tray 1 that is located the clearance region, all carry out jet-propelled processing, on the basis of guaranteeing the clearance effect to residual filter rod, need not to discern the residual filter rod in the filter rod tray 1, thereby simplify the discernment degree of difficulty to a certain extent, and then simplify the clear degree of difficulty of residual filter rod.

For the tray detector 2, a photoelectric detection switch, or other detection sensors, for example, a photoelectric detection switch may be disposed on two sides of the cleaning area, and when the filter rod tray 1 is conveyed to the cleaning area by the conveyor, a photoelectric signal between the photoelectric detection switches may be blocked by the filter rod tray, so as to trigger the photoelectric detection switch to generate a photoelectric line disconnection signal, and transmit the photoelectric line disconnection signal to the controller 6. The controller 6 receives the photoelectric line disconnection signal to determine that the filter rod tray 1 needing cleaning exists in the current cleaning area.

Of course, in practical applications, various other detectors such as a laser ranging sensor and an RFID radio frequency sensor may be used as the tray detector 2, as long as it can recognize and detect whether or not a filter rod tray is present in the cleaning area.

Optionally, in another optional embodiment of the present application, it may further include:

and a recovery device 8 arranged below the cleaning area and used for recovering the residual filter sticks.

When the filter rod tray 1 is located in the cleaning area, the recycling device 8 should be located below the opening position of the filter rod tray 1, when the residual filter rods in the filter rod tray 1 are blown by the gas sprayed by the spray head assembly 3 and blown out from the filter rod tray 1, the recycling device 8 can just receive the blown filter rods, on one hand, the filter rods can be prevented from rolling around, and on the other hand, the collected filter rods can be recycled.

It will be appreciated that the recovery device 8 may generally be an open-top box structure and that the size of the upper opening should be slightly larger relative to the filter rod tray 1, in particular in the direction of the filter rods falling off the filter rod tray 1. Furthermore, since the filter rods collected by the recovery device 8 can also be reused, the inner wall of the recovery device 8 can be a funnel-shaped inner wall. Because the filter rod is of a round rod structure, when the filter rod falls into the recovery device 8 with the funnel-shaped inner wall, the filter rod can roll down along the inner wall of the recovery device 8 to be concentrated and gathered, so that the filter rod is convenient for subsequent reuse.

As described above, the filter rod tray 1 has a substantially rectangular parallelepiped structure with an upper end and a front side surface open, and the residual filter rods in the filter rod tray 1 are attached to the filter rod tray 1 by electrostatic action, so that the filter rods are attached not only to the bottom of the filter rod tray 1 but also to the side walls of the filter rod tray 1. To this end, in order to ensure a more thorough cleaning of the residual filter rods in the filter rod tray 1, in a further alternative embodiment of the present application, it may further comprise:

the spray head assembly 3 comprises at least two universally adjustable spray heads 31.

As shown in fig. 2, the nozzle assembly 3 may be provided with a gas distribution pipe box 32 at a position where the gas line is connected; when the universal adjustable spray heads 31 are provided with two, the two universal adjustable spray heads 31 can be sequentially arranged along one direction with the largest dimension of the filter rod tray 1, and the spray direction of the universal adjustable spray heads 31 is further rotated when compressed high-pressure air is sprayed into the filter rod tray 1, so that residual filter rods in the filter rod tray 1 are cleared to the greatest extent.

It will be appreciated that the number of the universal adjustable nozzles 31 may be three or more, and in practical applications, the number may be determined according to the area covered by the gas that may be sprayed by each universal adjustable nozzle 31 and the space occupied by the filter rod tray 1, which is not particularly limited in this embodiment.

Further, as described above, the main reason for the presence of residual filter rods on the filter rod tray 1 is that static electricity is likely to exist on the filter rod tray 1; to this end, in another alternative embodiment of the present application, the gas circuit line that connects the showerhead assembly 3 and the gas source apparatus 4 is further provided with a first oil-gas separation filter pressure regulating valve 91 and an electrostatic neutralization eliminator 10.

Thus, the air source device 4 can firstly perform the first oil-gas separation and filtration pressure regulating valve 91 to adjust to a proper air pressure after compressing air to obtain high-pressure air, and then eliminate static electricity through the static electricity neutralization eliminator 10, so that the problem that the quantity of the filter rods adsorbed on the filter rod tray 1 is increased due to the fact that the compressed air with static electricity is sprayed on the filter rod tray 1 is avoided. Referring to fig. 2, the start-up and stop operation of the static electricity neutralization eliminator 10 may be performed by the controller 6 under the control of the second relay 72.

Further considering that the filter rod tray 1 only has a setting effect on the filter rod tray 1 and does not have a fixing effect during the movement of the filter rod tray 1 to the cleaning area along with the conveyor, when the nozzle assembly wants to spray high-pressure gas in the filter rod tray 1, the impact force on the filter rod tray 1 is relatively large, so as to avoid that the filter rod tray 1 is impacted by the gas pressure sprayed by the nozzle assembly 3 and falls off from the conveyor, in another alternative embodiment of the present application, the method may further comprise:

the tray clamping assemblies 11 are arranged on two sides of the cleaning area and are used for clamping the filter rod tray 1 when the spray head assembly 3 sprays air into the filter rod tray.

It can be understood that the tray clamping assembly 11 can also be controlled by the controller to act, in the practical application process, when the tray detector 2 detects the filter rod tray 1 located in the cleaning area, a corresponding electric signal is sent to the controller 6, the controller 6 controls the tray clamping assembly 11 to start the clamping action, so that the tray clamping assembly 11 fixes the filter rod tray 1 in the cleaning area, the filter rod tray is kept still for a certain period of time, after the clamping action of the tray clamping assembly 11 is completed, the controller 6 controls the first electromagnetic valve 51 to be opened again, so that the air source device 4 sends high-pressure air to the spray head assembly 3, and the universal adjustable spray head in the spray head assembly 3 sprays the high-pressure air into the filter rod tray 1, thereby cleaning residual filter rods in the filter rod tray 1.

In another alternative embodiment of the present application, the tray clamping assembly 11 may include:

the pneumatic clamping component is communicated with the air source device 4, and a second electromagnetic valve 52 connected with the controller 6 is arranged on an air path pipeline communicated with the tray clamping component 11 and the air source device 4.

In workshop equipment for producing and preparing cigarettes, the air source device 4 is an essential important component; from this, the equipment part that this application was in carrying out remaining filter rod clearance to filter rod tray 1 and carrying out centre gripping action to filter rod tray 1 and use is pneumatic equipment, can utilize the equipment part that exists now further on the one hand, promotes equipment utilization, and on the other hand also can simplify the structure of filter rod tray 1 cleaning equipment, reduces cleaning equipment's use cost.

In practice, the pneumatic clamping assembly may comprise two clamping plates, one on each side of the cleaning zone, and two air cylinders for driving the two clamping plates.

When the filter rod tray 1 is positioned in the cleaning area, the clamping plates respectively positioned at the two sides of the cleaning area are driven by the air cylinders to move towards the cleaning area between the two clamping plates so as to apply extrusion clamping acting force to the side wall of the filter rod tray 1, thereby realizing the clamping and fixing of the filter rod tray 1; when the cleaning of the filter rod tray 1 is completed, the two cylinders drive the clamping plates to retract, and the pneumatic clamping assembly releases the clamping force on the filter rod tray 1, so that the filter rod tray 1 can be returned to the warehouse along with the conveyor again.

In the embodiment shown in fig. 2, the second electromagnetic valve 52 on the air path pipeline where the tray holding assembly 11 and the air source device 4 are communicated comprises two-position five-way electromagnetic valves, each two-position five-way electromagnetic valve corresponds to one side pneumatic clamping assembly respectively, and the two-position five-way electromagnetic valves are both opened and closed by the controller 6 through the third relay 73.

In addition, in order to ensure that the clamping force of the tray clamping assembly 11 on the filter rod tray 1 can firmly fix the filter rod tray 1, a second oil-water separation filtering pressure regulating valve 92 is further arranged on a gas path pipeline where the tray clamping assembly 11 and the gas source device 4 are communicated, so as to ensure the air pressure of the action on the pneumatic clamping assembly 11.

In order to facilitate understanding of the technical solution of the present application, a practical workflow of the cleaning device for a filter rod tray is described below, where the specific workflow may include:

1) The empty filter rod tray 1 used by the transmitter reaches the cleaning area through the conveyor, and the filter rod tray 1 blocks the photoelectric signal of the photoelectric detection switch, so that the photoelectric detection switch conveys the photoelectric line disconnection signal to the controller 6.

2) After receiving the photoelectric line disconnection signal sent from the photoelectric detection switch, the controller 6 sends an electrical signal to the third relay 73.

3) The coil of the third relay 73 is electrified, the contact is closed, the coils of the two-position five-way electromagnetic valves are opened, high-pressure gas generated by the gas source device 4 passes through the PE type gas pipe quick connector 12 and the gas inlets of the two-position five-way electromagnetic valves through the second oil-water separation filtering pressure regulating valve 92 and reaches the pneumatic clamping assemblies at the two sides of the cleaning area, and the pneumatic clamping assemblies start to act to clamp the filter rod tray 1.

4) After the pneumatic clamping assembly starts to act for 2 seconds, the controller 6 outputs electric signals to the first relay 71 and the second relay 72 simultaneously, coils of the first relay 71 and the second relay 72 are powered on simultaneously, contacts are closed, the static neutralization eliminator 10 and coils of the two-position two-way electromagnetic valve are powered on, and an air path is opened; the high-pressure gas generated by the gas source device 4 sequentially passes through the first oil-water separation and filtration pressure regulating valve 91, the static neutralization eliminator 10 and the two-position two-way electromagnetic valve to reach the spray head assembly 3; the high-pressure gas in one route is divided into two routes through the PW type quick plug in the gas distribution box 31, and is respectively sprayed to the inner side of the filter stick tray 1 through the two universal adjustable spray heads 31.

The time for the high-pressure gas to be discharged can be set by the controller 6, and the head assembly 3 is set to a pulse-jet type, and the pulse-jet operation is completed after 3 seconds of discharge, 1 second of discharge, and 4 seconds of discharge.

5) The pneumatic clamping assembly in the clamping state is retracted, and the filter rod tray 1 in the free state continues to be conveyed by the conveyor to form a tray.

In summary, in the present application, the tray detector is disposed on the moving path of the filter rod tray, and when the filter rod tray reaches the cleaning area on the moving path, the controller may automatically control the first electromagnetic valve to be opened, so that the gas source device may deliver high-pressure gas to the nozzle assembly, and the nozzle assembly sprays the high-pressure gas into the filter rod tray to clean the residual filter rod in the filter rod tray; the whole process does not need to be manually participated, so that automatic cleaning of residual filter sticks in the filter stick tray is realized, and manpower and material resources are saved.

Embodiments of a cigarette preparation system are also provided that may include a cleaning apparatus for a filter rod tray as described in any of the above.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements is inherent to. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. In addition, the parts of the above technical solutions provided in the embodiments of the present application, which are consistent with the implementation principles of the corresponding technical solutions in the prior art, are not described in detail, so that redundant descriptions are avoided.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (10)

1. A cleaning apparatus for a filter rod tray, comprising:

a tray detector for detecting whether a filter rod tray exists in a cleaning area on a filter rod tray moving path;

the spray head assembly is arranged above the cleaning area and is used for spraying air into the filter rod tray to clean residual filter rods;

the air source device is communicated with the spray head assembly through an air channel pipeline, and a first electromagnetic valve is arranged on the air channel pipeline between the spray head assembly and the air source device;

and the controller is connected with the tray detector and the first electromagnetic valve and is used for controlling the first electromagnetic valve to be opened when the tray detector detects that the filter stick tray exists in the cleaning area, so that the nozzle component sprays gas.

2. The filter rod tray cleaning apparatus of claim 1, further comprising a recovery device disposed below the cleaning zone for recovering the residual filter rods.

3. The filter rod tray cleaning apparatus of claim 2, wherein the inner wall of the recovery device is a funnel-shaped inner wall.

4. The filter rod tray cleaning apparatus of claim 1, wherein the tray detector is a photo-detection switch.

5. The filter rod tray cleaning apparatus of claim 1, wherein the spray head assembly comprises at least two universally adjustable spray heads.

6. The filter rod tray cleaning apparatus according to claim 1, wherein a first oil-water separation filter pressure regulating valve and an electrostatic neutralization eliminator are further provided on a gas path pipeline through which the spray head assembly and the gas source device are communicated.

7. A filter rod tray cleaning apparatus according to any one of claims 1 to 6, further comprising tray holding assemblies disposed on either side of the cleaning zone for holding the filter rod tray when the spray head assembly sprays air into the filter rod tray.

8. The filter rod tray cleaning device according to claim 7, wherein the tray holding assembly is a pneumatic holding assembly communicated with the air source device, and a second electromagnetic valve connected with the controller is arranged on an air path pipeline communicated with the tray holding assembly and the air source device.

9. The filter rod tray cleaning device according to claim 8, wherein a second oil-water separation filter pressure regulating valve is further arranged on a gas path pipeline which is communicated with the tray holding assembly and the gas source device.

10. A cigarette preparation system comprising a cleaning apparatus for a filter rod tray according to any one of claims 1 to 9.

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