CN115246498B - Front-back separation type smoke storage channel translation detection device and translation control method - Google Patents

Abstract

The invention relates to a front-back separated type cigarette storage channel translation detection device and a translation control method. The invention overcomes the limit of a narrow structural space between the inlet of the cigarette storage channel and the tail outlet of the cigarette inlet runway, can fully utilize the space of the cigarette inlet runway, is very convenient and easy to install detection equipment such as a sensor for detecting whether the cigarette packet is blocked, improves the working efficiency and reduces the production cost.

Description

Front-back separation type smoke storage channel translation detection device and translation control method

Technical Field

The invention relates to a front-back separation type cigarette storage channel translation detection device and a translation control method, and belongs to the technical field of cigarette packet packaging.

Background

Cigarette packaging is a very important process in cigarette production, and for a number of reasons, the packets on the packaging conveyor belt are temporarily stored by a packet buffer device, and are stored in a cigarette storage box again by a cigarette storage grid. The cigarette storage grille is provided with a plurality of cigarette storage channels, each cigarette storage channel can store N cigarettes at most, the sum of the lengths of the N cigarettes is generally larger than the length of the cigarette storage channel, when cigarettes are stored, each cigarette storage grille is moved by one lattice, and cigarettes stored in the next cigarette storage channel are sequentially repeated until the last cigarette storage channel is full of cigarettes.

A small section of gap is reserved between the tail outlet of the smoke inlet runway and the inlet of the smoke storage channel on the conveyor belt, and the small section of gap is called as the smoke storage channel allowance. Because most of the cigarette packets on the conveyor belt are discontinuous, only when the head of the Nth cigarette packet completely enters the cigarette storage channel in the cigarette storage process, the tail of the Nth cigarette packet does not exceed the allowance of the cigarette storage channel, the cigarette storage channel can move to the side, otherwise, the outlet at the tail of the cigarette inlet runway can be caused to clamp the Nth cigarette packet, and the cigarette storage channel is stopped due to faults.

In actual production practice, it is difficult to judge that the tail of the Nth pack in the cigarette storage channel does not exceed the remaining amount of the cigarette storage channel in the cigarette storage process, and the Nth pack may rebound after completely entering the cigarette storage channel, which can cause the cigarette inlet runway to clamp the Nth pack. However, the remaining amount of the cigarette storage channel between the inlet of the cigarette storage channel and the tail outlet of the cigarette inlet runway is usually very small, and under the limitation of the structural space, it is difficult to install a detection device such as a sensor for detecting whether the cigarette packet is jammed or not.

Disclosure of Invention

The invention aims to solve the technical problems that: the cigarette pack can be prevented from being blocked by the cigarette inlet runway when the cigarette storage channel translates, so that the cigarette storage efficiency of the cigarette pack caching device can be improved.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: a front-back separated cigarette storage channel translation detection device, wherein the length of the cigarette storage channel is S, and N cigarette packets with the length of L can be contained at most, namely (N-1) is greater than S and less than or equal to N; a smoke inlet runway mounted on the frame is arranged at the rear of the smoke storage channel, a first baffle and a second baffle are respectively arranged at two sides of the smoke inlet runway, and a gap between the tail outlet of the smoke inlet runway and the inlet of the smoke storage channel is D, wherein D is smaller than L;

the tail of the cigarette storage channel is marked as a first marking point C at a distance N x L towards the inlet direction ₀ Each interval distance L from the first mark point on the smoke inlet runway is taken as a second mark point, and M second mark points are respectively marked as C ₁ ,C ₂ ,……，C _M Wherein M is more than or equal to 1; the distance between the first mark point (M+1) and L on the smoke inlet runway is marked as a third mark point and is marked as C _M+1 ；

The first mark point and the second mark point are collectively called as auxiliary mark points, and a first cigarette packet detection sensor for detecting whether a cigarette packet exists at the position between two adjacent auxiliary mark points is arranged;

the frame is provided with a tobacco bale separating device, and the tobacco bale separating device comprises a tobacco holding mechanism and a separation device capable of reciprocating along a tobacco inlet runwayThe cigarette holding mechanism is arranged on the separating mechanism; auxiliary marking point C on smoke inlet runway at working starting position of the smoke packet separating device _M The cigarette packet separating device can move the cigarette packet at the corresponding position on the cigarette inlet runway by a preset distance in the direction away from the cigarette storage channel between the third marking point and the third marking point;

the frame is also provided with a second tobacco packet detection sensor and a third tobacco packet detection sensor, and the second tobacco packet detection sensor and the third tobacco packet detection sensor are used for detecting whether a tobacco packet exists at the corresponding tobacco inlet runway or not; the distance between the second tobacco bale detection sensor and the inlet of the tobacco storage channel is greater than or equal to M x L, the distance between the third tobacco bale detection sensor and the tail outlet of the tobacco inlet runway is less than or equal to M x L, and the second tobacco bale detection sensor is closer to the tobacco storage channel than the third tobacco bale detection sensor.

Correspondingly, the invention also provides a translation control method of the cigarette storage channel translation detection device, which is applied to the technical scheme, and comprises the following steps of:

step one, receiving a full smoke signal sent by a smoke storage channel, and executing step two after receiving the full smoke signal;

step two, the first tobacco bale detection sensor detects whether a tobacco bale exists at the position; when all the first tobacco bale detection sensors detect tobacco bales, stopping the transmission work of the tobacco inlet runway, and executing the third step, otherwise, repeating the second step after the tobacco inlet runway continues to transmit the tobacco bales for a first preset time period;

step three, the tobacco bale separating device acts, and the separating mechanism drives the tobacco bale holding mechanism to drive the tobacco bale at the corresponding position on the tobacco inlet runway to move in the direction away from the tobacco storage channel, wherein the moving distance is greater than or equal to (S+D-N x L); then the second tobacco bale detection sensor and the third tobacco bale detection sensor detect whether a tobacco bale exists on a tobacco inlet runway corresponding to the position of the second tobacco bale detection sensor and the third tobacco bale detection sensor;

if the second tobacco bale detection sensor detects a tobacco bale and the third tobacco bale detection sensor does not detect the tobacco bale, driving the tobacco storage channel to translate, and executing the fourth step after the tobacco storage channel translates in place; otherwise, resetting the tobacco bale separating device, continuously transmitting the tobacco bale for a second preset time period by the tobacco feeding runway, and then repeatedly executing the third step;

and fourthly, continuously transmitting the cigarette packets by the cigarette feeding runway, and returning to the first step.

In the present invention, the first mark point, the second mark point and the third mark point are virtual points, which are only used for marking positions and distances, and have no other physical significance. The terms "front" and "rear" in the present invention are merely for distinguishing directions, and are not to be construed as limiting the present invention; wherein the direction of movement towards the pack is defined as forward and the direction of transport away from the pack is defined as rearward, as shown in fig. 1, towards the left as rearward and towards the right as forward.

According to the invention, through ingenious arrangement, detection equipment such as a sensor for detecting whether the tobacco bale will block cigarettes is transferred onto the tobacco inlet runway from the position between the tail outlet of the tobacco inlet runway and the inlet of the tobacco storage channel, and the adjacent two tobacco bales to be detected (respectively, the Mth packet and the Mth+1th packet on the tobacco inlet runway) are staggered back and forth by applying power, so that the interference of the Mth packet and the 1th packet on the tobacco inlet runway to the detection process is eliminated, the position of the tail of the Nth packet of the tobacco storage channel is indirectly judged by detecting the tail position of the Mth packet on the tobacco inlet runway, and further, whether the tobacco storage channel is blocked when moving sideways can be known, namely, the end part of the Nth packet on the tobacco storage channel, which is close to the tobacco inlet runway, is propped against the residual position of the tobacco storage channel between the tail outlet of the tobacco inlet runway and the inlet of the tobacco storage channel, so that the Nth packet on the tobacco storage channel cannot be reversely emitted into the tobacco inlet runway is ensured, and further, the blocking phenomenon of the tobacco storage channel is effectively avoided. Through the arrangement, the detection equipment is transferred onto the smoke inlet runway from the position between the tail outlet of the smoke inlet runway and the inlet of the smoke storage channel, so that the limit of a narrow structural space between the inlet of the smoke storage channel and the tail outlet of the smoke inlet runway is overcome, the space of the smoke inlet runway can be fully utilized, the detection equipment such as a sensor for detecting whether a cigarette packet is clamped or not can be conveniently and easily installed, the working efficiency is improved, and the production cost is reduced.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of each mark point in the first embodiment of the present invention.

Fig. 2 is a schematic diagram of a first embodiment of the present invention.

Fig. 3 is a schematic diagram of a second embodiment of the present invention.

FIG. 4 is a second schematic diagram of a second embodiment of the present invention.

Reference numerals: the cigarette comprises a cigarette storage grid 1, a separation mechanism 2, a cigarette holding mechanism 3, a cigarette inlet runway 4, a cigarette storage channel 6, a cigarette packet 7, a first baffle 8, a second baffle 9, a second cigarette packet detection sensor 10 and a third cigarette packet detection sensor 11.

Detailed Description

Example 1

Generally, the cigarette storage grating is provided with a plurality of cigarette storage channels, when cigarette storage is carried out, each time one cigarette storage is full, the cigarette storage grating moves one cigarette storage grating, and cigarette storage of the cigarette storage channels of the next cigarette storage grating is carried out, and the operation is repeated in sequence until the last cigarette storage channel is full of cigarettes.

As shown in fig. 1, in this embodiment, assuming that the length of the smoke storing channel 6 is S, at most a smoke packet with a packet length of N (for example, n=5 in fig. 1) is accommodated, i.e., (N-1) ×l < s.ltoreq.n×l; the rear of the cigarette storage channel 6 is provided with a cigarette inlet runway 4 arranged on the frame, two sides of the cigarette inlet runway 4 are respectively provided with a baffle (comprising a first baffle 8 and a second baffle 9), and a gap between the tail outlet of the cigarette inlet runway 4 and the inlet of the cigarette storage channel 6 is D, wherein D is smaller than L.

For convenience of description, the following definitions are made in this embodiment: as shown in fig. 1, a distance N x L between the tail of the smoke storage channel 6 and the inlet direction is denoted as a first mark point C ₀ Each interval distance L from the first mark point on the smoke inlet runway is taken as a second mark point, and M second mark points are respectively marked as C ₁ ,C ₂ ,……，C _M Wherein M is more than or equal to 1; the distance between the first mark point (M+1) and L on the smoke inlet runway is marked as a third mark point and is marked as C _M+1 The method comprises the steps of carrying out a first treatment on the surface of the We will put the firstThe marking point and the second marking point are collectively referred to as an auxiliary marking point.

The embodiment relates to a front-back separation type smoke storage channel translation detection device, a first smoke packet detection sensor (not shown in the figure) for detecting whether a smoke packet exists at a position between two adjacent auxiliary mark points, and the first smoke packet detection sensor can adopt a capacitive sensor, an inductive sensor or a photoelectric sensor and the like, which is the prior art and is not repeated. Preferably, the first tobacco bale detecting sensor is arranged at a center position between two adjacent auxiliary marking points.

For convenience of presentation, in this embodiment, as shown in fig. 2, m=1 is taken, and in practical application, M may be greater than 1. The machine frame is provided with a tobacco bale separating device, the tobacco bale separating device comprises a tobacco bale holding mechanism 3 (used for holding tobacco bales) and a separating mechanism 2 capable of moving back and forth along a tobacco inlet runway 4, the tobacco bale holding mechanism 1 is arranged on the separating mechanism 2, and the tobacco bale holding mechanism can drive the held tobacco bales to move along with the movement of the separating mechanism 2; auxiliary marking point C on smoke inlet runway at working starting position of the smoke packet separating device _M And a third mark point, the cigarette packet separating device can separate the cigarette packet at the corresponding position on the cigarette inlet runway (namely from the first mark point C ₀ The M+1st cigarette packet is moved to a preset distance away from the cigarette storage channel (the moving distance is generally greater than or equal to (S+D-N x L)), so that when the cigarette storage channel is detected to be capable of translating, the M+1st cigarette packet can be separated from the M th cigarette packet, and the interference of the M+1st cigarette packet is avoided, and the detection result is influenced.

However, in the case of the detection device, the M-th pack may be removed from the smoke inlet passage, and the m+1-th pack and the M-th pack may not be separated correctly, so that a case may occur in which no stuck smoke is generated, but the detection device may erroneously recognize that the stuck smoke is generated after the operation. In order to reduce the false alarm rate of the detection device and improve the working efficiency, preferably, the position, on the smoke inlet runway, of the smoke inlet runway, which is distant from the tail outlet M x L of the smoke inlet runway, is marked as a point E, and the working starting position of the smoke packet separating device is located between the point E and a third marking point.

As shown in fig. 2, in this embodiment, the smoke holding mechanism 3 adopts air cylinders (of course, air blowing nozzles or hydraulic cylinders, etc.) arranged in pairs, and the two air cylinders are respectively located at two sides of the smoke inlet runway, and when smoke is clamped, the piston rods of the air cylinders extend to clamp the cigarette packet. In order to facilitate the separation mechanism to drive the smoke holding mechanism to reciprocate, the two side baffles of the smoke inlet runway 4 are provided with strip grooves for the piston rods of the air cylinders to move. The separating mechanism 2 adopts a hydraulic cylinder (of course, an air cylinder or an electric cylinder and the like can also be adopted), is arranged at the top of the smoke inlet runway 4, two air cylinders are fixed on piston rods of the hydraulic cylinders, and the piston rods of the air cylinders are arranged towards the smoke inlet runway and are perpendicular to the smoke inlet runway.

As shown in fig. 2, the frame is further provided with a second tobacco packet detecting sensor 10 and a third tobacco packet detecting sensor 11, and the second tobacco packet detecting sensor 10 and the third tobacco packet detecting sensor 11 are used for detecting whether a tobacco packet exists at the corresponding tobacco inlet runway. The second packet inspection sensor 10 and the third packet inspection sensor 11 may be capacitive sensors, inductive sensors, or photoelectric sensors, but the applicant has found that there is a high probability of malfunction when using capacitive sensors or inductive sensors, and therefore, the correlation type photoelectric sensor is preferable in this embodiment.

The distance between the second tobacco bale detecting sensor 10 and the inlet of the tobacco storage channel 6 is greater than or equal to m×l, the distance between the third tobacco bale detecting sensor 11 and the tail outlet of the tobacco inlet runway 4 is less than or equal to m×l, and the second tobacco bale detecting sensor is closer to the tobacco storage channel than the third tobacco bale detecting sensor.

The present embodiment can also be modified as follows:

1) The cigarette holding mechanism comprises an air cylinder, a blowing nozzle or a hydraulic cylinder which are arranged on the separating mechanism, a stop block is arranged on a baffle plate on one side of the cigarette inlet runway, the stop block is fixed on the separating mechanism, and the stop block is matched with the air cylinder, the blowing nozzle or the hydraulic cylinder in position and is separated on two sides of the cigarette inlet runway, so that the cigarette packet is clamped by utilizing the cooperation among the air cylinder, the blowing nozzle or the hydraulic cylinder and the stop block. In implementation, a baffle of the smoke inlet runway is provided with a chute extending along the length direction of the smoke inlet runway, and the stop block can move along the chute.

2) The smoke holding mechanism can also adopt other common clamping mechanisms, such as a finger cylinder, a pneumatic type end clamping mechanism, a hydraulic type end clamping mechanism, a magnetic type end clamping mechanism or an air suction type end clamping mechanism.

3) The separation mechanism adopts a motor, the motor drives the smoke holding mechanism to move forwards and backwards through an intermediate transmission mechanism, and the intermediate transmission mechanism is a gear rack mechanism, a worm and gear mechanism, a nut screw mechanism or a crank sliding block mechanism and the like.

Example two

The present embodiment is different from the first embodiment in that: as shown in fig. 3, the smoke holding mechanism 3 in this embodiment is a negative pressure suction nozzle, and the negative pressure suction nozzle is disposed above the smoke inlet track 4 and is mounted on the executing part of the separating mechanism. When separating the tobacco bale, the tobacco bale 7 moves along with the separating mechanism under the adsorption of the negative pressure suction nozzle.

As an improvement, as shown in fig. 4, the negative pressure suction nozzle may be disposed at a side of the smoke inlet track 4, and a bar-shaped groove matched with the negative pressure suction nozzle is formed on the baffle plate, and the negative pressure suction nozzle may reciprocate along the bar-shaped groove.

Example III

The present embodiment is a translation control method for applying the smoke storage channel translation detection device described in the first embodiment or the second embodiment, including the following steps:

and step one, receiving a full smoke signal sent by the smoke storage channel, and executing step two after receiving the full smoke signal. The cigarette storing channel is provided with a sensor for detecting the full of cigarettes, and when the cigarette pack of the cigarette storing channel is full of cigarettes, a full-cigarette signal is sent out.

Step two, the first tobacco bale detection sensor detects whether a tobacco bale exists at a position corresponding to a tobacco inlet runway; when all the first tobacco bale detection sensors detect tobacco bales, stopping transmission work of the tobacco inlet runway, and judging whether the tail of an M-th tobacco bale is in a safe area after performing tobacco bale separation action in the third step; otherwise, after the smoke inlet runway continues to transmit the smoke packets for a first preset time period (for example, the smoke inlet runway can be set to be 1 second), the second step is repeatedly executed so as to ensure that each first smoke packet detection sensor can detect the smoke packets.

Step three, the tobacco bale separating device acts, the separating mechanism drives the tobacco bale holding mechanism to drive the tobacco bale at the corresponding position on the tobacco inlet runway to move in the direction away from the tobacco storage channel, and the moving distance is greater than or equal to (S+D-N x L), so that the M+1th tobacco bale can not be interfered when the tail part of the M th tobacco bale is detected to be in a safe area; and then the second tobacco bale detection sensor and the third tobacco bale detection sensor detect whether the tobacco bale exists on the tobacco inlet runway corresponding to the position.

If the second tobacco bale detection sensor detects a tobacco bale, the third tobacco bale detection sensor does not detect the tobacco bale, at the moment, the tail of the Mth tobacco bale is in a safe area, and the fact that the Nth tobacco bale on the tobacco storage channel cannot block tobacco is indirectly indicated, so that the tobacco storage channel is driven to translate, and after the tobacco storage channel translates in place, the fourth step is executed.

Otherwise, after the smoke inlet runway continues to transmit the smoke packets for a second preset time period (for example, the smoke inlet runway can be set to be 1 second), the third step is repeatedly executed. Here, there are two cases: if the third tobacco bale detecting sensor detects a tobacco bale, the tail of the Mth tobacco bale is not in a safe area, and the situation that the Nth tobacco bale on the tobacco storage channel possibly clamps tobacco is indirectly judged, so that the tobacco bale separating device is reset, and after the tobacco bale is continuously transmitted by the tobacco bale feeding runway for a second preset time period (for example, the tobacco bale feeding runway can be set to be 1 second), the step three is repeatedly executed; or if the second tobacco bale detecting sensor and the third tobacco bale detecting sensor do not detect tobacco bales, whether the Nth tobacco bale on the tobacco storage channel can block cigarettes cannot be judged at the moment, so that the tobacco bale separating device is reset, and the tobacco charging runway is enabled to continuously transmit the tobacco bales for a second preset time period (for example, the second time period can be set to be 1 second), and then the third step is repeatedly executed.

And fourthly, continuously transmitting the cigarette packets by the cigarette feeding runway, and returning to the first step.

The present invention is not limited to the specific technical solutions described in the above embodiments, and other embodiments may be provided in addition to the above embodiments. Any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art, which are within the spirit and principles of the present invention, are intended to be included within the scope of the present invention.

Claims (9)

1. A front-back separated cigarette storage channel translation detection device, wherein the length of the cigarette storage channel is S, and N cigarette packets with the length of L can be contained at most, namely (N-1) is greater than S and less than or equal to N; a smoke inlet runway mounted on the frame is arranged at the rear of the smoke storage channel, baffles are respectively arranged at two sides of the smoke inlet runway, and a gap between an outlet at the tail of the smoke inlet runway and an inlet of the smoke storage channel is D, wherein D is smaller than L; the method is characterized in that:

the tail of the cigarette storage channel is marked as a first marking point C at a distance N x L towards the inlet direction ₀ Each interval distance L from the first mark point on the smoke inlet runway is taken as a second mark point, and M second mark points are respectively marked as C ₁ ,C ₂ ,……，C _M Wherein M is more than or equal to 1; the distance between the first mark point (M+1) and L on the smoke inlet runway is marked as a third mark point and is marked as C _M+1 ；

The first mark point and the second mark point are collectively called as auxiliary mark points, and a first cigarette packet detection sensor for detecting whether a cigarette packet exists at the position between two adjacent auxiliary mark points is arranged;

the machine frame is provided with a tobacco packet separating device, the tobacco packet separating device comprises a tobacco holding mechanism and a separating mechanism capable of moving reciprocally along a tobacco feeding runway, and the tobacco holding mechanism is arranged on the separating mechanism; auxiliary marking point C on smoke inlet runway at working starting position of the smoke packet separating device _M The cigarette packet separating device can move the cigarette packet at the corresponding position on the cigarette inlet runway by a preset distance in the direction away from the cigarette storage channel between the third marking point and the third marking point;

the frame is also provided with a second tobacco packet detection sensor and a third tobacco packet detection sensor, and the second tobacco packet detection sensor and the third tobacco packet detection sensor are used for detecting whether a tobacco packet exists at the corresponding tobacco inlet runway or not; the distance between the second tobacco bale detection sensor and the inlet of the tobacco storage channel is greater than or equal to M x L, the distance between the third tobacco bale detection sensor and the tail outlet of the tobacco inlet runway is less than or equal to M x L, and the second tobacco bale detection sensor is closer to the tobacco storage channel than the third tobacco bale detection sensor.

2. The front-rear separation type smoke storing channel translation detecting device according to claim 1, wherein: and the position, which is away from the tail outlet M of the smoke inlet runway, on the smoke inlet runway is marked as a point E, and the working starting position of the smoke packet separating device is positioned between the point E and a third marking point.

3. The front-rear separation type smoke storing channel translation detecting device according to claim 1 or 2, wherein: the smoke holding mechanisms are air cylinders, air blowing nozzles or hydraulic cylinders which are arranged on two sides of the smoke inlet runway in pairs.

4. The front-rear separation type smoke storing channel translation detecting device according to claim 1 or 2, wherein: the cigarette holding mechanism comprises an air cylinder, a blowing nozzle or a hydraulic cylinder which are arranged on the separating mechanism, a stop block is arranged on a baffle plate on one side of the cigarette inlet runway, the stop block is fixed on the separating mechanism, and the stop block is matched with the air cylinder, the blowing nozzle or the hydraulic cylinder in position and is separated into two sides of the cigarette inlet runway.

5. The front-rear separation type smoke storing channel translation detecting device according to claim 1 or 2, wherein: the smoke holding mechanism is a negative pressure suction nozzle which is arranged above the smoke inlet runway or at one side of the smoke inlet runway.

6. The front-rear separation type smoke storing channel translation detecting device according to claim 1 or 2, wherein: the smoke holding mechanism is a finger cylinder, a pneumatic type tail end clamping mechanism, a hydraulic type tail end clamping mechanism, a magnetic type tail end clamping mechanism or an air suction type tail end clamping mechanism.

7. The front-rear separation type smoke storing channel translation detecting device according to claim 1 or 2, wherein: the separation mechanism comprises an air cylinder, a hydraulic cylinder or an electric cylinder, and the smoke holding mechanism is arranged on an executing part of the air cylinder, the hydraulic cylinder or the electric cylinder.

8. The front-rear separation type smoke storing channel translation detecting device according to claim 1 or 2, wherein: the separating mechanism comprises a motor and an intermediate transmission mechanism, the motor drives the smoke holding mechanism to move forwards and backwards through the intermediate transmission mechanism, and the intermediate transmission mechanism is a gear rack mechanism, a worm and gear mechanism, a nut screw mechanism or a crank sliding block mechanism.

9. A translation control method using the cigarette storage channel translation detection apparatus of claim 1 or 2, comprising the steps of:

step one, receiving a full smoke signal sent by a smoke storage channel, and executing step two after receiving the full smoke signal;

step two, the first tobacco bale detection sensor detects whether a tobacco bale exists at the position; when all the first tobacco bale detection sensors detect tobacco bales, stopping the transmission work of the tobacco inlet runway, and executing the third step, otherwise, repeating the second step after the tobacco inlet runway continues to transmit the tobacco bales for a first preset time period;

step three, the tobacco bale separating device acts, and the separating mechanism drives the tobacco bale holding mechanism to drive the tobacco bale at the corresponding position on the tobacco inlet runway to move in the direction away from the tobacco storage channel, wherein the moving distance is greater than or equal to (S+D-N x L); then the second tobacco bale detection sensor and the third tobacco bale detection sensor detect whether a tobacco bale exists on a tobacco inlet runway corresponding to the position of the second tobacco bale detection sensor and the third tobacco bale detection sensor;

if the second tobacco bale detection sensor detects a tobacco bale and the third tobacco bale detection sensor does not detect the tobacco bale, driving the tobacco storage channel to translate, and executing the fourth step after the tobacco storage channel translates in place; otherwise, resetting the tobacco bale separating device, continuously transmitting the tobacco bale for a second preset time period by the tobacco feeding runway, and then repeatedly executing the third step;

and fourthly, continuously transmitting the cigarette packets by the cigarette feeding runway, and returning to the first step.