CN115744148A - Buffer transition device and method for conveying materials to inclined conveying body - Google Patents

Abstract

The invention discloses a buffer transition device and a buffer transition method for conveying materials to an inclined conveying body, wherein the buffer transition device comprises a deflection sliding plate, and one end of the deflection sliding plate is hinged with a discharging end of an input mechanism; one end of the buffer transition sliding plate is hinged with the other end of the deflection sliding plate; the deflection sliding plate driving source is respectively connected with the base at the bottom of the discharging end and the bottom of the deflection sliding plate to control the deflection sliding plate to deflect up and down by a certain angle; one end of the reset mechanism is connected to the deflection sliding plate, and the other end of the reset mechanism is hinged to the buffer transition sliding plate; the detection element is respectively connected to the deflection sliding plate and the reset mechanism; the control system is respectively connected with the deflection sliding plate driving source and the detection element through electric signals, and the luggage conveying device can stably convey luggage to the inclined plane conveying body.

Description

Buffer transition device and method for conveying materials to inclined conveying body

Technical Field

The invention relates to the technical field of airport luggage confluence conveying, in particular to a buffering transition device for conveying materials to an inclined conveying body and a using method thereof.

Background

In an airport luggage automatic processing system, in order to ensure that luggage with diversified shapes (such as a trolley case with casters, a soft bag of a woven bag and a carton) cannot stop on a conveying surface of an inclined conveying body such as a straight chute, a spiral chute, an inclined turntable and the like, a large inclination angle scheme with an inclination angle larger than 20 degrees is generally adopted, so that the luggage is damaged in the process of sorting/injecting the luggage into the chute from a conveying carrier such as a sorting machine (such as a tray sorting machine, a cross belt sorting machine) or an Independent Carrying System (ICS) and the like, and the casters are damaged in the process of injecting the luggage into the inclined turntable, the chute and the like from a conveying device, the fragile articles in the luggage are damaged in the falling process of the luggage, and passengers are easy to cause dissatisfaction and complaint on the airport service quality. The following disadvantages exist by analysis: 1) During the process that the luggage is conveyed to the inclined conveying body by the injection conveying device, the luggage falls on the inclined conveying body by the self weight of the luggage when the gravity center of the luggage is suspended, so that the luggage is damaged during the injection process; especially, the casters of the trolley case are most seriously damaged during the falling process when the casters are at the front end. 2) When the overall dimensions (width and height) of the luggage are similar, the luggage can roll over during the injection and falling process, and the luggage itself or the fragile objects in the luggage can be damaged. 3) The baggage is accelerated down the ramp conveyor at the initial velocity provided by the injection conveyor, resulting in secondary damage to the baggage at the end of the ramp conveyor due to impact forces.

The luggage turntable introducing port speed reduction and impact prevention device and the method disclosed by the Chinese patent CN202210705346.6 adopt the control scheme that a luggage buffer device is additionally arranged on the inclined plane at the conveying line tail turntable introducing port and the speed of the luggage injection turntable is maximally reduced only at the position where the turntable introducing port is easy to impact through the full speed at the front section of the conveying line, so that the impact on the luggage injection turntable is reduced, and the breakage rate of the luggage when the luggage is introduced into the turntable is reduced. The technique disclosed in this patent suffers from the following disadvantages:

1) The luggage buffer device is additionally arranged on the inclined plane at the injection port of the turntable, so that the impact force of the luggage can be relieved, the luggage is caused to roll on the inclined plane, and the damage rate of the luggage when being guided into the turntable can be increased.

2) The initial speed of the luggage injection turntable is reduced, and on the premise of sacrificing the system processing flow, the damage rate of the luggage introduced into the turntable cannot be effectively reduced due to the impact force of the luggage at the tail end of the inclined plane conveying body.

Chinese patent CN202110964474.8 discloses a manipulator for preventing baggage from reaching a turntable and colliding and damaging in an airport and a using method thereof, wherein the manipulator is used for blocking the baggage injected onto the turntable, so as to reduce the downward sliding speed of the baggage.

Therefore, it is an urgent need to solve the problems of the prior art to provide a buffering transition device for conveying materials to an inclined conveying body and a using method thereof.

Disclosure of Invention

In view of the above, the invention provides a buffer transition device and method for conveying materials to an inclined conveying body, so that luggage is stably conveyed and is stably conveyed to the inclined conveying body in the conveying process, and the breakage rate of the luggage is reduced.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a buffering transition device to inclined plane conveying body transported substance material, installs between input mechanism and inclined plane conveying body, and it includes:

one end of the deflection sliding plate is hinged with the discharge end of the input mechanism;

one end of the buffer transition sliding plate is hinged with the other end of the deflection sliding plate, and an initial rotation angle is formed between the deflection sliding plate and the buffer transition sliding plate;

the deflection sliding plate driving source is respectively connected with the base at the bottom of the discharging end and the bottom of the deflection sliding plate to control the deflection sliding plate to deflect a certain angle up and down;

one end of the reset mechanism is connected to the deflection sliding plate, and the other end of the reset mechanism is hinged to the buffer transition sliding plate;

the detection element is respectively connected to the deflection sliding plate and the reset mechanism;

the detection element comprises a force-sensitive sensor and a vibration sensor; the force-sensitive sensor is connected to one end of the reset mechanism; the vibration sensor is connected to the bottom of the deflection sliding plate;

and the control system is respectively in electric signal connection with the deflection sliding plate driving source, the force-sensitive sensor and the vibration sensor.

The invention has the beneficial effects that: the buffering transition device is arranged between the input mechanism and the inclined plane conveying body, luggage articles can be stably conveyed onto the inclined plane conveying body, the buffering of the luggage articles is completed by controlling the deflection angle of the deflection sliding plate through the deflection sliding plate, the luggage articles stably slide onto the inclined plane conveying body through the buffering effect of the buffering transition sliding plate, the position and the vibration information of the luggage articles are detected through the arranged detection element, specifically, the position of the luggage articles on the deflection sliding plate is detected through the force-sensitive sensor, the vibration information generated when the luggage is conveyed onto the deflection sliding plate is detected by the vibration sensor and fed back to the control system, and the deflection sliding plate driving source is controlled by the control system to complete the deflection action of the deflection sliding plate.

Preferably, the bottom of the deflection sliding plate is fixedly connected with a swing connecting plate, and the swing connecting plate is fixedly connected with the vibration sensor.

Preferably, the driving source of the deflecting sliding plate is a pneumatic telescopic cylinder or an electric telescopic cylinder or a crank rocker mechanism.

Preferably, the crank and rocker mechanism comprises a connecting rod, a crank and a power source, the power source is electrically connected with the control system, the power source is fixedly connected to the base, one end of the crank is in transmission connection with an output shaft of the power source, one end of the connecting rod is hinged to the other end of the crank, and the other end of the connecting rod is hinged to the bottom of the deflection sliding plate.

Preferably, a support plate is fixedly connected to the bottom wall of the deflection sliding plate, a through hole is formed in the support plate, the reset mechanism comprises a spring and a guide rod, the guide rod is slidably connected in the through hole, the spring is connected to the outer side of the guide rod, one end of the guide rod penetrates through the through hole, the other end of the guide rod is hinged to a support rod on the buffer transition sliding plate, one end of the guide rod is connected with a limit nut, and the force sensor is connected to the guide rod and located between the limit nut and the support plate.

Preferably, the horizontal high position of the deflection sliding plate has a certain height difference with the conveying surface of the input mechanism, and the low position of the downward deflection stroke of the deflection sliding plate is parallel to the conveying inclined surface of the inclined surface conveying body.

Preferably, the low position of the downward deflection stroke of the buffer transition sliding plate is coplanar with the deflection sliding plate.

The invention also discloses a buffer transition method of the buffer transition device for conveying materials to the inclined conveying body, which comprises the following steps:

the method comprises the following steps: the upstream device transporting the baggage item onto the input mechanism;

step two: the control system acquires information whether the deflection sliding plate is at a horizontal high position or not, and acquires information whether luggage articles exist in a confluence area of the inclined plane conveying body or not; if the confluence area has luggage or the deflection sliding plate is at an inclined low position, the control system controls the input mechanism to stop running, and if the confluence area has no luggage and the deflection sliding plate is at a high position, the input mechanism continues running;

step three: the control system acquires whether the luggage object reaches the deflection sliding plate, adjusts the swinging speed of the deflection sliding plate through a deflection sliding plate driving source according to the outline size and the weight information of the luggage object, and if the luggage object information is not detected on the deflection sliding plate, the deflection sliding plate is kept at a horizontal high position; if the deflection slide plate detects the information of the luggage articles, the deflection slide plate swings from a horizontal high position to an inclined low position under the control of a deflection slide plate driving source, and the luggage articles slide down to the inclined plane conveying body after passing through the buffer transition slide plate.

The invention has the beneficial effects that: the swing speed of the deflection sliding plate is controlled through the force-sensitive sensor and the vibration sensor and the control system in combination with the contour dimension and the weight information of the luggage articles, the gliding speed of the luggage articles is controlled, the luggage is prevented from being damaged at the tail end of the inclined plane conveying body due to secondary impact, the whole conveying process is stable and orderly, congestion is avoided, and the integrity of each luggage article is guaranteed.

Drawings

FIG. 1 is a schematic view of an application of a buffering transition device for conveying materials to an inclined conveying body according to the present invention;

FIG. 2 is an assembly drawing of the buffer transition device for transporting materials to a slant conveying body according to the present invention;

FIG. 3 is a schematic view of a reset mechanism of a buffer transition device for conveying materials to an inclined conveying body according to the present invention;

FIG. 4 is a schematic front view of a first embodiment of a buffering transition device for transporting materials to an inclined plane transporting body according to the present invention;

FIG. 5 is a schematic front view of a second embodiment of a buffering transition device for transporting materials to a slant conveying body according to the present invention;

FIG. 6 is a first schematic view of a buffering transition device for transporting materials to a slant conveying body according to the present invention;

FIG. 7 is a schematic diagram of a second baggage conveying buffer transition device for conveying materials to a slant conveying body according to the present invention;

FIG. 8 is a third schematic view of a buffering transition device for transporting materials to a slant conveying body for transporting baggage according to the present invention;

FIG. 9 is a schematic view of a fourth embodiment of a buffer transition device for transporting materials to a slant conveying body according to the present invention;

FIG. 10 is a schematic flow chart of a buffer transition conveying method for conveying materials to a slant conveying body according to the present invention.

The device comprises an input mechanism 1, a discharge end 11, a base 12, a conveying surface 13, a side plate 14, a deflection sliding plate 2, a buffer transition sliding plate 3, a deflection sliding plate 4, a driving source 41, a fixed end 42, a telescopic driving end 43, a connecting rod 44, a crank 45, a power source 5, a reset mechanism 51, a spring 52, a guide rod 53, a limit nut 6, a force sensor 7, a vibration sensor 8, a swing connecting plate 8, a supporting plate 9, a supporting rod 10 and an inclined conveying body 101.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 10 of the present invention, a buffering transition device for conveying materials to an inclined conveying body according to an embodiment of the present invention is installed between an input mechanism 1 and an inclined conveying body 101, the input mechanism 1 includes two channel side plates 14 and a conveying surface 13, the conveying surface 13 forms a channel structure between the two channel side plates, the inclined conveying body may be a chute, a spiral chute, and an inclined turntable, and the buffering transition device includes:

one end of the deflection sliding plate 2 is hinged with the discharge end 11 of the input mechanism 1;

one end of the buffer transition sliding plate 3 is hinged with the other end of the deflection sliding plate 2, and an initial rotation angle is formed between the deflection sliding plate 2 and the buffer transition sliding plate 3; the buffer transition sliding plate can play a role in secondary buffering;

the deflection sliding plate driving source 4 is characterized in that a fixed end 41 of the deflection sliding plate driving source 4 is hinged to the base 12 at the bottom of the discharge end 11, and a telescopic driving end 42 of the deflection sliding plate driving source 4 is hinged to the bottom of the deflection sliding plate 2 to control the deflection sliding plate 2 to rotate up and down by a certain angle; the deflection sliding plate driving source adjusts the rotation angle and the rotation speed of the deflection sliding plate;

one end of the reset mechanism 5 is connected to the deflection sliding plate 2, and the other end of the reset mechanism 5 is hinged to the buffer transition sliding plate 3; the reset mechanism 5 can reset the buffer transition sliding plate 3;

the force-sensitive sensor 6 is connected with one end of the reset mechanism 5; for detecting the position of the item of baggage on the buffer transition device;

the vibration sensor 7, the vibration sensor 7 is connected to the bottom of the deflection slide plate 2; the vibration information is used for detecting the vibration information of the luggage on the buffer transition device;

and the control system is in electric signal connection with the deflection sliding plate driving source 4, the force sensor 6 and the vibration sensor 7 respectively, and is a control center for the operation of the whole equipment.

In other embodiments, the swing connecting plate 8 is fixedly connected to the bottom of the swing sliding plate 2, and the vibration sensor 7 is fixedly connected to the swing connecting plate 8. The connection between the deflection sliding plate and the deflection sliding plate driving source is realized through the swing connecting plate.

In other embodiments, the yaw sliding plate driving source 4 may alternatively use a pneumatic telescopic cylinder or an electric telescopic cylinder or a crank rocker mechanism, and the telescopic driving end 42 is hinged on the swing connecting plate 8 to provide the power for the yaw sliding plate 2 to rotate up and down.

In the second embodiment, as shown in fig. 5, when the driving source 4 of the deflection sliding plate is in the form of a crank and rocker mechanism, a speed reduction motor is selectively used as the power source 45 of the crank and rocker mechanism, and the speed reduction motor is electrically connected with the control system; the speed reducing motor is fixedly connected to the base 12, one end of a crank 44 is fixed on an output shaft of the speed reducing motor and rotates along with the output shaft of the speed reducing motor, the other end of the crank 44 is hinged with one end of a connecting rod 43, and the other end of the connecting rod 43 is hinged to the bottom of the deflection sliding plate 2 and used for controlling the deflection sliding plate 2 to rotate up and down by a certain angle; the rotation angle and the rotation speed of the deflection sliding plate are adjusted by using a speed reducing motor.

In other embodiments, a support plate 9 is fixedly connected to the bottom wall of the deflection sliding plate 2, a through hole is formed in the support plate 9, the reset mechanism 5 includes a spring 51 and a guide rod 52, the guide rod 52 is slidably connected in the through hole, the spring 51 is connected to the outer side of the guide rod 52, one end of the guide rod 52 penetrates through the through hole, the other end of the guide rod 52 is hinged to the support rod 10 on the buffer transition sliding plate, one end of the guide rod 52 is connected with a limit nut 53, and the force sensor 6 is connected to the guide rod 52 and located between the limit nut 53 and the support plate 9. The force-sensitive sensor 6 can be used to detect the position of the item of baggage on the buffer transition device. When the luggage articles arrive on the buffer transition sliding plate, the force-sensitive sensor detects the luggage information of the articles;

in other embodiments, the deflecting sliding plate 2 is horizontally arranged at a height different from the conveying surface 13 of the input mechanism 1, the drop height H is not more than 150 mm, the deflecting sliding plate is convenient to slide downwards, and the low position of the downward deflecting stroke of the deflecting sliding plate 2 is parallel to the conveying inclined surface of the inclined conveying body 101.

In other embodiments, the low position of the downward deflection stroke of the buffer transition slide 3 is coplanar with the deflection slide 2. The luggage articles can slide to the inclined conveying body conveniently.

In the present invention, the input mechanism may be a conveyor, a sorting machine (e.g., a pallet sorting machine, a cross-belt sorting machine), a baggage independent carrying system, or the like.

The invention also discloses a buffer transition conveying method for conveying materials to the inclined conveying body, which comprises the following steps:

the method comprises the following steps: the upstream device delivers the baggage item onto the input mechanism;

step two: acquiring whether the deflection sliding plate is in a horizontal high position or not, and acquiring information of whether luggage articles exist in a confluence area of the inclined plane conveying body or not; if the confluence area has luggage articles or the deflection slide plate is at an inclined low position, the input mechanism stops running, and if the confluence area has no luggage articles and the deflection slide plate is at a high position, the input mechanism continues running;

step three: the control system acquires information whether the luggage articles reach the deflection sliding plate, adjusts the swinging speed of the deflection sliding plate through the deflection sliding plate driving source according to the outline size and the weight information of the luggage articles, and keeps the deflection sliding plate at a horizontal high position if the luggage articles are not detected on the deflection sliding plate; if luggage articles are detected on the deflection sliding plate, the deflection sliding plate swings from a horizontal high position to an inclined low position under the control of a deflection sliding plate driving source, and the luggage articles slide down to the inclined plane conveying body after passing through the buffer transition sliding plate.

Fig. 6 corresponds to process 1: the baggage item is transported to the input mechanism (injection conveyor), fig. 7 corresponds to process 2: the baggage item arrives at the deflecting skis, fig. 8 corresponds to process 3: the deflecting slide plate swings from a horizontal high position to an inclined low position, and the process 4 is corresponding to the process in the figure 9: the luggage items slide down onto the inclined conveyor body.

The vibration sensor is connected with the swing connecting plate and used for detecting vibration generated when the luggage is conveyed to the buffer transition device.

In the material conveying process, when the data detected by the vibration sensor exceeds a set threshold value, the deflection sliding plate driving source drives the deflection sliding plate to swing to an inclined low position around the rotating shaft under the control of the electric control system and to be parallel to the conveying inclined plane of the inclined plane conveying body, so that the luggage can slide to the inclined plane conveying body flexibly and in a buffering manner. Or when the materials are conveyed onto the deflection sliding plate and touch the buffering transition sliding plate, so that the data detected by the force-sensitive sensor exceeds a set threshold value, the deflection sliding plate driving source drives the deflection sliding plate to swing to an inclined low position around the rotating shaft under the control of the electric control system, and the flexible and buffering sliding of the luggage onto the inclined conveying body is ensured.

The invention utilizes the swinging deflection sliding plate and the buffer transition sliding plate which are arranged between the input mechanism and the inclined plane conveying body to convey the luggage to the deflection sliding plate firstly, and then the deflection sliding plate swings to make the luggage object slide to the inclined plane conveying body softly. The luggage is prevented from falling, impacting and rolling in the injection process, and the damage rate of the luggage injection inclined plane conveying body is reduced from the equipment angle.

According to the invention, the detection unit of the luggage article on the buffer transition sliding plate is added, and the swing speed and the sliding speed of the luggage are controlled by combining the information such as the contour size and the weight of the luggage, so that the damage of the luggage on the tail end of the inclined plane conveying body due to secondary impact is avoided.

The buffer transition device adopts a modularized structure, and is convenient to maintain and replace.

For the device and the using method disclosed by the embodiment, the description is simple because the device and the using method correspond to the method disclosed by the embodiment, and the relevant points can be referred to the description of the method part.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a buffering transition device to inclined plane conveying body transported substance material, installs between input mechanism (1) and inclined plane conveying body (101), its characterized in that includes:

one end of the deflection sliding plate (2) is hinged with the discharge end (11) of the input mechanism (1);

the buffer transition sliding plate (3), one end of the buffer transition sliding plate (3) is hinged with the other end of the deflection sliding plate (2), and an initial rotation angle is formed between the deflection sliding plate (2) and the buffer transition sliding plate (3);

the deflection sliding plate driving source (4), the deflection sliding plate driving source (4) is respectively connected with a base (12) at the bottom of the discharging end (11) and the bottom of the deflection sliding plate (2) to control the deflection sliding plate (2) to rotate up and down for a certain angle;

one end of the resetting mechanism (5) is connected to the deflection sliding plate (2), and the other end of the resetting mechanism (5) is hinged to the buffer transition sliding plate (3);

the detection element is connected to the deflection sliding plate (2) and the reset mechanism (5);

and the control system is respectively in electric signal connection with the deflection sliding plate driving source (4) and the detection element.

2. A buffer transition device for conveying materials to a slope conveying body according to claim 1, characterized in that the detection elements comprise a force-sensitive sensor (6) and a vibration sensor (7), the force-sensitive sensor (6) is connected to one end of the reset mechanism (5); the vibration sensor (7) is connected to the bottom of the deflection sliding plate (2).

3. The buffering transition device for conveying materials to the inclined conveying body according to claim 2, wherein a swing connecting plate (8) is fixedly connected to the bottom of the deflection sliding plate (2), and the vibration sensor (7) is fixedly connected to the swing connecting plate (8).

4. The buffering transition device for conveying materials to the inclined conveying body according to claim 1, wherein the deflection sliding plate driving source (4) is a pneumatic telescopic cylinder or an electric telescopic cylinder or a crank rocker mechanism.

5. The buffering transition device for conveying materials to the inclined conveying body according to claim 4, wherein the crank and rocker mechanism comprises a connecting rod (43), a crank (44) and a power source (45), the power source (45) is electrically connected with the control system, the power source (45) is fixedly connected to the base (12), one end of the crank (44) is in transmission connection with an output shaft of the power source (45), one end of the connecting rod (43) is hinged to the other end of the crank (44), and the other end of the connecting rod (43) is hinged to the bottom of the deflection sliding plate (2).

6. The buffering transition device for conveying materials to the inclined conveying body according to claim 2, wherein a support plate (9) is fixedly connected to a bottom wall of the deflecting sliding plate (2), a through hole is formed in the support plate (9), the reset mechanism (5) comprises a spring (51) and a guide rod (52), the guide rod (52) is slidably connected in the through hole, the spring (51) is connected to the outer side of the guide rod (52), one end of the guide rod (52) penetrates through the through hole, the other end of the guide rod (52) is hinged to a support rod (10) on the buffering transition sliding plate (3), one end of the guide rod (52) is connected to a limit nut (53), and the force sensor (6) is connected to the guide rod (52) and located between the limit nut (53) and the support plate (9).

7. The buffer transition device for conveying materials to the inclined conveying body according to the claim 1, characterized in that the horizontal high position of the deflecting sliding plate (2) has a certain height difference with the conveying surface (13) of the input mechanism (1), and the low position of the downward deflecting stroke of the deflecting sliding plate (2) is parallel with the conveying inclined surface of the inclined conveying body (101).

8. A buffer transition device for conveying materials to a slope conveying body according to claim 1, characterized in that the low position of the downward deflection stroke of the buffer transition sliding plate (3) is coplanar with the deflection sliding plate (2).

9. A buffer transition conveying method of a buffer transition device for conveying materials to a slant conveying body according to any one of claims 1 to 8, characterized by comprising the following steps:

the method comprises the following steps: the upstream device transporting the baggage item onto the input mechanism;

step two: the control system acquires information whether the deflection sliding plate is at a horizontal high position or not, and acquires information whether luggage articles exist in a confluence area of the inclined plane conveying body or not; if the confluence area has luggage articles or the deflection sliding plate is at an inclined low position, the control system controls the input mechanism to stop running, and if the confluence area has no luggage articles and the deflection sliding plate is at a high position, the input mechanism continues running;

step three: the control system acquires whether the luggage articles reach the deflection sliding plate, adjusts the swinging speed of the deflection sliding plate through the deflection sliding plate driving source according to the outline size and weight information of the luggage articles, and if the luggage articles are not detected on the deflection sliding plate, the deflection sliding plate is kept at a horizontal high position; if the deflection slide plate detects the information of the luggage articles, the deflection slide plate swings from a horizontal high position to an inclined low position under the control of a deflection slide plate driving source, and the luggage articles slide down to the inclined plane conveying body after passing through the buffer transition slide plate.

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