CN219383649U - Garbage bag packing device and intelligent garbage can - Google Patents

Abstract

The application relates to the field of intelligent garbage cans, in particular to a garbage bag packing device and an intelligent garbage can. The garbage bag packaging device comprises a closing-in mechanism and a packaging mechanism, wherein the closing-in mechanism is suitable for being installed in the intelligent garbage can and used for folding garbage bags located in the intelligent garbage can. The packing mechanism is suitable for being installed in the intelligent garbage can; the packaging mechanism comprises a fixing seat, a first heating piece and a second heating piece, wherein the first heating piece and the second heating piece are fixedly arranged on the fixing seat, the first heating piece and the second heating piece are arranged at intervals in parallel, and the fixing seat is used for being installed in the intelligent garbage can; when the packing mechanism is installed in the intelligent garbage can, the second heating piece is located between the placing port and the first heating piece. Above-mentioned disposal bag packing apparatus both can automatic cutout packing rubbish, can also realize the sealing of the disposal bag that waits to use next, and it is convenient to use, efficient, has improved user's use and has experienced the sense.

Description

Garbage bag packing device and intelligent garbage can

Technical Field

The application relates to the field of intelligent garbage cans, in particular to a garbage bag packing device and an intelligent garbage can.

Background

At present, an automatic sealing intelligent garbage can sold in the market generally adopts a drawing type garbage bag arranged on an intelligent can cover, has the functions of a common intelligent garbage can, can automatically cut off and pack the garbage bag through an electric heating device when cleaning and exchanging the garbage bag, opens an intelligent can cover after finishing, and then brings out the packed garbage bag from the can. The electric heating device of the general intelligent garbage can only has a single heating/fusing piece, when the garbage bags are packed, the single heating/fusing piece is easy to be adhered when cutting off the first garbage bag, or after cutting off the first garbage bag, the sealing effect on the second garbage bag is poor, and the packing efficiency is reduced.

Disclosure of Invention

The application provides a disposal bag packing apparatus and intelligent garbage bin.

The application provides a garbage bag packing device which is applied to an intelligent garbage can to pack garbage bags in the intelligent garbage can; the intelligent garbage can is provided with a placing opening for passing through the garbage bag; the garbage bag packaging device comprises a closing-in mechanism and a packaging mechanism, wherein the closing-in mechanism is suitable for being installed in the intelligent garbage can and used for folding garbage bags located in the intelligent garbage can. The packing mechanism is suitable for being installed in the intelligent garbage can; the packaging mechanism comprises a fixing seat, a first heating piece and a second heating piece, wherein the first heating piece and the second heating piece are fixedly arranged on the fixing seat, the first heating piece and the second heating piece are arranged at intervals in parallel, and the fixing seat is used for being installed in the intelligent garbage can; when the packing mechanism is installed in the intelligent garbage can, the second heating piece is located between the placing port and the first heating piece.

In some optional examples, the closing mechanism includes a driving assembly and a pushing assembly, the driving assembly is in transmission connection with the pushing assembly, the pushing assembly is configured to be slidably disposed in the intelligent garbage can, the pushing assembly and the first heating element are disposed in parallel along a first direction, and the driving assembly is configured to drive the pushing assembly to push the garbage bag to move along the first direction, so that the garbage bag is attached to the first heating element to be cut off.

In some alternative examples, the pushing assembly includes a high temperature resistant rubber strip and a pushing member, the pushing member is configured to be slidably disposed in the intelligent garbage can and connected to the driving assembly, and the high temperature resistant rubber strip is disposed on a side of the pushing member facing the first heating member.

In some alternative examples, the pushing assembly further includes two limiting members, the number of limiting members is two, the two limiting members are respectively connected to two ends of the pushing member, the two limiting members are arranged at opposite intervals in a second direction for limiting the garbage bag in the second direction, and the second direction intersects with the first direction.

In some alternative examples, the closing-in mechanism further comprises a transmission assembly, and the transmission assembly is connected between the driving assembly and the pushing assembly in a transmission manner, so that the pushing assembly is driven by the driving assembly to move away from or close to the first heating element.

In some alternative examples, the transmission assembly includes a driving pulley, a driven pulley, and a belt, the driving pulley and the driven pulley being disposed in parallel and spaced apart along the first direction, the driving pulley being drivingly connected to the driving assembly, the driven pulley being configured to be rotatably disposed within the intelligent garbage can, the belt being disposed around the driving pulley and the driven pulley, the pushing assembly being connected to the belt.

In some alternative examples, the number of the transmission assemblies is two, the two transmission assemblies are respectively arranged at two sides of the driving assembly, and two end sides of the driving assembly are respectively connected with the driving pulleys of the two transmission assemblies.

In some alternative examples, the drive assembly includes a drive member for mounting inside the intelligent garbage can and a drive shaft connected to an output of the drive member and between the drive pulleys of the two drive assemblies.

In some alternative examples, the interior of the intelligent garbage can is provided with a positioning block, and the packaging mechanism further comprises a mounting shell for detachably connecting to the interior of the intelligent garbage can; the installation shell comprises an installation part and a sleeving part, the installation part is matched with the positioning block in a sliding way, the sleeving part is connected to the installation part, and the shaft part of the driving belt pulley is rotatably accommodated in the sleeving part.

In some alternative examples, the mounting portion is provided with a mounting groove penetrating through one side of the mounting portion along the axial direction of the driving pulley, and the mounting portion is slidably sleeved on the periphery of the positioning block through the mounting groove and is in clamping fit with the positioning block.

In some alternative examples, the packaging mechanism further comprises two guide shafts, the two guide shafts are arranged in the intelligent garbage can and are respectively and fixedly arranged at two opposite ends of the first heating element, the pushing assembly is arranged between the two guide shafts, and two ends of the pushing assembly are respectively matched with the two guide shafts in a sliding manner.

In a second aspect, the application further provides an intelligent garbage can, which comprises a containing can and the garbage bag packing device, wherein the garbage bag packing device is arranged in the containing can.

In some optional examples, the intelligent garbage can further comprises a controller and a sensor, the controller is electrically connected with the garbage bag packing device, the sensor is electrically connected with the controller, and the controller is used for controlling the garbage bag packing device to pack garbage bags in the intelligent garbage can according to signals detected by the sensor.

Compared with the prior art, when the garbage bag packaging device is applied to the intelligent garbage can, the user loads the garbage bag into the intelligent garbage can. The user puts rubbish into the disposal bag through placing the mouth in, when needs take out disposal bag packing or need clear up and hold the bucket, the closing mechanism draws in the disposal bag that is located intelligent garbage bin in, then with its pressfitting on first heating spare and second heating spare. The first heating piece cuts off and seals the garbage bags filled with articles in the intelligent garbage can, and the second heating piece seals the next garbage bag for next use. When the garbage bag packaging device is used, packaging garbage can be automatically cut off, sealing of the next garbage bag to be used can be achieved, the garbage bag packaging device is convenient and fast to use, the efficiency is high, and the use experience of a user is improved.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an intelligent garbage can according to an embodiment of the present application.

Fig. 2 is a schematic structural view of the mounting box and the garbage bag packing device of the intelligent garbage can shown in fig. 1.

Fig. 3 is a partial structural schematic view of a receiving tub of the intelligent garbage can shown in fig. 2.

Fig. 4 is a schematic view of the packing mechanism of the garbage bag packing apparatus shown in fig. 2.

Fig. 5 is a schematic view of the pushing assembly of the closing mechanism of the garbage bag packing apparatus of fig. 2.

Fig. 6 is a partial schematic view of the transmission and drive assemblies of the necking mechanism of fig. 2.

Fig. 7 is a schematic view of the mounting structure of the transmission assembly and the drive assembly of fig. 6.

Fig. 8 is a schematic view of the mounting shell of the necking mechanism of fig. 2.

Description of the reference numerals: 100. a garbage bag packing device; 10. a receiving tub; 11. a tub body; 12. a receiving chamber; 13. a barrel cover; 14. a placement port; 15. installing a partition board; 152. a yielding port; 154. a positioning block; 16. a mounting cavity; 30. a mounting box; 32. a through hole; 40. a closing-in mechanism; 52. a drive assembly; 521. a driving member; 525. a transmission shaft; 53. a transmission assembly; 532. a driving pulley; 533. a driven pulley; 534. a belt; 527. a gear set; 54. a pushing assembly; 541. a pushing member; 5412. pushing the body; 5414. a connection part; 543. a high temperature resistant rubber strip; 545. a limiting piece; 50. a baling mechanism; 56. a truncation assembly; 561. a first heating member; 563. a second heating member; 565. a fixing plate; 567. a fixing seat; 58. a mounting shell; 581. a mounting part; 5812. a mounting groove; 583. a sleeving part; 5832. sleeving a hole; 59. a guide shaft; 70. a controller; 80. a sensor; 200. an intelligent garbage can.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

In the description of the present utility model, it should be understood that the terms "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. Either mechanically or electrically. Can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 and 2, the embodiment of the application provides a garbage bag packaging device 100, where the garbage bag packaging device 100 can be applied to an intelligent garbage can 200, and is used for automatically packaging garbage bags in the intelligent garbage can 200, so as to improve the intelligent degree of the intelligent garbage can 200.

In this embodiment, the intelligent garbage can 200 includes the holding tub 10 and the garbage bag packing apparatus 100. The accommodating tub 10 is provided with an accommodating chamber 12, and the accommodating chamber 12 forms a placement opening 14 through one end of the accommodating tub 10. In some embodiments, the smart trash can 200 may further include a mounting box 30, and the placement opening 14 may also be formed in the mounting box 30. In this embodiment, the placement opening 14 is formed in the accommodating barrel 10, the mounting box 30 is connected to the end of the accommodating barrel 10 provided with the placement opening 14, the mounting box 30 is used for mounting a garbage bag, the mounting box 30 is provided with a through hole 32 communicated with the placement opening 14, and the mounted garbage bag extends into the accommodating cavity 12 through the through hole 32. The garbage bag packing device 100 is disposed in the accommodating bin 10, and the garbage bag packing device 100 is used for packing garbage bags in the accommodating cavity 12.

When the intelligent garbage can 200 is used, a user first installs a garbage bag (namely, a garbage bag) in the installation box 30, the bottom of the garbage bag is located in the accommodating cavity 12, and then disposes garbage in the garbage bag through the through hole 32. When the garbage bags need to be packed, taken out and cleaned in the accommodating cavity 12, the garbage bag packing device 100 cuts off the end of the garbage bag in the accommodating cavity 12 close to the accommodating opening 14 and seals the end, and seals the next garbage bag to be used.

In some embodiments, the smart trash can 200 can further include a controller 70 and a sensor 80, the controller 70 can be disposed within the containment can 10, and the controller 70 can be electrically connected to the trash bag packaging device 100. The sensor 80 may be connected to the tub 10, and the sensor 80 is electrically connected to the controller 70. The controller 70 may be a control circuit board, a control chip, or the like, which may be connected to the inner wall of the receiving tub 10 and electrically connected to the garbage bag packing apparatus 100 through a cable. The specification is not limited to the specific type of the sensor 80, and for example, the sensor 80 may be a human body sensor, or a control button (physical button, touch screen) whose detected signal may be a pressing/touch signal applied thereto. In the present embodiment, the sensor 80 employs a human body sensor, such as an infrared sensor or an ultrasonic sensor. When the sensor 80 detects a human body signal of a specific orientation, a signal is fed back to the controller 70, and the controller 70 controls the garbage bag packing device 100 to pack the garbage bags so that the user can take out the garbage. The intelligent garbage bin 200 is convenient to use, and intelligent degree is high, and the use experience of a user is improved.

Referring to fig. 1 and 3, in the present embodiment, the accommodating tub 10 includes a tub body 11, an installation partition 15, and a tub cover 13, and the accommodating chamber 12 and the placement opening 14 are disposed in the tub body 11. The tub 11 has a substantially hollow cylindrical shape, such as a prismatic cylindrical shape, a cylindrical shape, or the like. The mounting partition 15 is provided in the accommodating chamber 12 for mounting the closing-in mechanism 40. The both sides of installation baffle 15 are fixed in the inner wall of staving 11 opposite both sides respectively, and installation baffle 15 encloses into holding chamber 12 jointly with the inner peripheral wall of staving 11 of its one side, encloses into installation chamber 16 jointly with the inner peripheral wall of staving 11 of its opposite side, and installation chamber 16 is used for installing the partial structure of disposal bag packing apparatus 100.

The barrel cover 13 is connected to one end of the barrel body 11 provided with a placement opening 14, and is positioned at one side of the mounting box 30 away from the bottom of the accommodating cavity 12. The tub cover 13 covers the through hole 32 (shown in fig. 2) and the placement opening 14, and the tub cover 13 may be rotatably connected to the tub 11, thereby facilitating the user to place articles to the tub 11, and covering the placement opening 14 when not in use, so that the appearance of the tub 10 may look tidier.

In the present embodiment, the mounting box 30 is provided in one end of the tub 11 provided with the placement port 14 for placing the garbage bag. The mounting box 30 is generally square and annular with an annular cavity therein for receiving a trash bag. To facilitate replenishment of the disposal bag, the mounting box 30 may be used continuously, the mounting box 30 may be connected in a split type, for example, the mounting box 30 may include a box body and a cover body, the cover body may be movably connected with the box body, and the disposal bag may be mounted by opening the cover body.

Referring to fig. 1 and 2, the garbage bag packaging apparatus 100 is disposed on a side of the mounting box 30 facing away from the tub cover 13. The garbage bag packing apparatus 100 includes a closing mechanism 40 and a packing mechanism 50. A closing-in mechanism 40 is mounted to the containment drum 10 for closing in the garbage bags located in the containment drum 10. The necking mechanism 40 includes a drive assembly 52 and a push assembly 54. The driving assembly 52 is connected to the mounting partition 15, and the pushing assembly 54 is slidably disposed in the accommodating chamber 12 and is drivingly connected to the driving assembly 52.

The packing mechanism 50 is disposed in the holding tank 10 for cutting and sealing the garbage bag in the holding tank 10, and the packing mechanism 50 includes a cutting member 56, the cutting member 56 being juxtaposed with the pushing member 54 in the first direction X. The specific direction of the first direction X is not limited in this specification, and for example, the first direction X may be the longitudinal direction of the tub 11 or the width direction of the tub 11. In the present embodiment, the first direction X is the width direction of the tub 11. When the garbage bag is in use, the bottom end of the garbage bag is positioned in the accommodating cavity 12, the cutting-off assembly 56 and the pushing assembly 54 are respectively positioned at two sides of the garbage bag, the driving assembly 52 drives the pushing assembly 54 to move along the first direction X near the cutting-off assembly 56, and the pushing assembly 54 pushes the garbage bag to enable the garbage bag to be attached to the cutting-off assembly 56 to be cut off, so that the garbage bag is packaged.

Referring to fig. 2 and 4, in the present embodiment, the cutting assembly 56 is used for fusing and heat-sealing the garbage bag inside the accommodating barrel 10 (shown in fig. 1), and the specific structure of the cutting assembly 56 is not limited in this specification, and for example, the cutting assembly 56 may include a fuse, a heat sealing sheet, and the like. In the present embodiment, the cutoff assembly 56 includes a first heating member 561 and a second heating member 563, the second heating member 563 being disposed between the first heating member 561 and the mounting case 30, the first heating member 561 and the second heating member 563 being electrically connected to the controller 70. Wherein the first heating element 561 is used for fusing and sealing the garbage bag in the accommodating cavity 12, and the second heating element 563 is used for sealing the bottom end of a new garbage bag not used at the mounting box 30. When the controller 70 receives the signal of the sensor 80, the controller 70 controls the first heating member 561 and the second heating member 563 to heat so as to cut and seal the garbage bag. The specific structures of the first heating member 561 and the second heating member 563 are not limited in this specification, and for example, the first heating member 561 and the second heating member 563 may be in a sheet shape, a plate shape, or a bar shape extending in the second direction Y. In the present embodiment, the first heating member 561 and the second heating member 563 are both heating wires.

To facilitate the installation of the first heating member 561 and the second heating member 563, the packing mechanism 50 further includes a fixing plate 565 and a fixing seat 567. The fixing plate 565 is disposed at a side of the tub 11 opposite to the installation partition 15, and is located at a side of the installation case 30 away from the tub cover 13. The fixed plate 565 is connected to an inner wall of the tub 11, and the fixed plate 565 extends along the second direction Y. The second direction Y intersects (e.g., is perpendicular to) the first direction X, and in this embodiment, the second direction Y is a longitudinal direction of the tub 11. The fixing base 567 is connected to a side of the fixing plate 565 facing the mounting partition 15, and the fixing base 567 is also extended along the second direction Y. The fixing base 567 may be made of synthetic stone or ceramic sheet in consideration of the characteristics of the first heating member 561 and the second heating member 563 for fusing.

The first heating member 561 and the second heating member 563 are both connected to a side of the fixing base 567 remote from the fixing plate 565, and both extend in the second direction Y. The first heating member 561 and the second heating member 563 are disposed at a parallel interval in the height direction of the tub 11. In use, the pushing assembly 54 pushes the garbage bag towards the first heating element 561 and the second heating element 563 under the driving of the driving assembly 52, the garbage bag is attached to the first heating element 561 and the second heating element 563, the first heating element 561 cuts off and seals the garbage bag containing the articles in the accommodating cavity 12, and the second heating element 563 seals the next garbage bag for the next use.

In some embodiments, the intelligent garbage can 200 may also include a can-turning mechanism and a bag-blowing mechanism. The bucket turning mechanism may include an inner bucket and a bucket turning assembly, wherein the top of the inner bucket (the end of the inner bucket close to the placement port 14) is open, the bottom (the end of the inner bucket far away from the placement port 14) is rotatably connected in the accommodating bucket 10, and the garbage bag is accommodated in the inner bucket. One side of holding bucket 10 is equipped with the groove of stepping down, turns over the bucket subassembly and sets up in interior bucket and hold between the bucket 10, and it is used for promoting interior bucket and rotates for holding bucket 10, makes the open department in top of interior bucket expose outside holding bucket 10 through the groove of stepping down at least partially to the user takes out the disposal bag of packing. When the user takes out the packed garbage bags, the bucket turning assembly drives the inner bucket to turn back into the accommodating bucket 10, and then a new garbage bag is paved by the bag blowing mechanism. The bag blowing mechanism is arranged on the mounting box 30 or the accommodating barrel 10, and is used for blowing air into the garbage bag after the second heating element 563 seals the next garbage bag, so that a new garbage bag enters the accommodating cavity 12, and the intelligent garbage can 200 is convenient for a user to continuously use.

In this embodiment, a pushing assembly 54 is disposed within the receiving cavity 12 (shown in FIG. 3) for pushing the trash bag adjacent to the first heating element 561. Referring to fig. 2 and 5, the pushing assembly 54 includes a pushing member 541 and a high temperature resistant rubber strip 543, wherein the pushing member 541 is disposed between the first heating member 561 and the mounting partition 15, and the pushing member 541 is slidably connected to an inner wall of the tub 11. The pushing member 541 is disposed to extend in the second direction Y, and is substantially plate-shaped. The specific connection manner of the pushing member 541 and the barrel 11 is not limited in this specification, for example, two ends of the pushing member 541 may be directly slidably embedded in the inner sidewall of the barrel 11.

In this embodiment, in order to mount the pushing member 541 while improving the sliding stability of the pushing member 541, the closing mechanism 40 further includes a guide shaft 59. The guide shaft 59 is located in the accommodating chamber 12 and extends in the first direction X. One end of the guide shaft 59 is connected to the installation partition 15, and the other end is connected to a sidewall of the tub 11 opposite to the installation partition 15. The number of the guide shafts 59 is two, the two guide shafts 59 are arranged in parallel at intervals along the second direction Y, and the two guide shafts 59 are respectively positioned at both ends of the pushing member 541. Both ends of the pushing member 541 are slidably engaged with the two guide shafts 59, respectively. Specifically, for example, the pushing member 541 includes a pushing body 5412 and two connecting portions 5414, where the number of the connecting portions 5414 is two, the two connecting portions 5414 are respectively connected to opposite ends of the pushing body 5412, and the two guiding shafts 59 are respectively slidably disposed through the corresponding connecting portions 5414. The two guide shafts 59 improve the sliding stability of the pushing piece 541, and the two ends of the pushing piece 541 move synchronously, so that the to-be-sealed/cut-off parts of the garbage bags can be attached to the cut-off assembly 56, and the cut-off and sealing quality of the garbage bags is improved.

The high temperature resistant rubber strip 543 is fixed to a side of the pushing body 5412 facing the first heating member 561 and the second heating member 563. The high temperature resistant rubber strips 543 are extended along the second direction Y, the dimension of the high temperature resistant rubber strips 543 along the second direction Y is greater than or equal to the dimension of the first heating element 561 and the second heating element 563 along the second direction Y, and the dimension of the high temperature resistant rubber strips 543 along the direction from the first heating element 561 and the second heating element 563 is greater than or equal to the distance between the first heating element 561 and the second heating element 563. The pushing piece 541 pushes the garbage bag to be attached to the first heating piece 561 and the second heating piece 563 through the high-temperature-resistant rubber strip 543, and the high-temperature-resistant rubber strip 543 provides protection for the pushing piece 541, so that the possibility that the pushing piece 541 is damaged at high temperature is reduced, and the service life of the pushing piece 541 is prolonged.

To limit the trash bag during the bagging process, in this embodiment, the push assembly 54 also includes a limiter 545. The limiting member 545 is connected to a side of the pushing body 5412 facing the high temperature resistant rubber strip 543, and is substantially rod-shaped and extends along the first direction X. The number of the limiting pieces 545 is two, and the two limiting pieces 545 are oppositely arranged at intervals along the second direction Y and are respectively connected with two ends of the pushing body 5412. The distance between the two stoppers 545 is greater than or equal to the dimension of the high temperature resistant rubber strip 543 in the second direction Y. In the packing process, the pushing body 5412 pushes the garbage bag to move towards the first heating member 561, and the two limiting members 545 limit the garbage bag in the second direction Y, so that the sealing end/cutting end of the garbage bag can be fully attached to the first heating member 561, and the quality of cutting and sealing the garbage bag is improved.

In some embodiments, the necking mechanism 40 may not include the pushing assembly 54. Without the pushing assembly 54, the user can manually tie the garbage bag into the mouth and then press the garbage bag onto the cutting assembly 56 to cut and seal; alternatively, the necking mechanism 40 may include a manual lever and push rod, and the user manipulates the lever to push the push rod member to press the garbage bag against the cutoff assembly 56, so that the garbage bag is heated, cut and sealed.

Referring to fig. 2 and 6, in the present embodiment, the closing mechanism 40 may further include a transmission assembly 53. The driving assembly 52 includes a driving member 521, the driving member 521 is connected to the mounting partition 15, and the transmission assembly 53 is drivingly connected between the driving assembly 52 and the pushing member 541, where the driving assembly 52 is configured to drive the pushing member 541 to move in the first direction X to approach or separate from the first heating member 561 by using the transmission assembly 53.

In this embodiment, referring to fig. 3, the driving member 521 is connected to the side of the mounting partition 15 facing the mounting cavity 16, and the specific type of the driving member 521 is not limited in this specification, and for example, the driving member 521 may be a driving source such as a rotating motor, a rotating steering engine, or a rotating cylinder. In the present embodiment, the driving member 521 is a rotary electric machine.

The drive assembly 53 is located on the side of the guide shaft 59 adjacent the mounting box 30. The specific structure of the transmission assembly 53 is not limited in this specification, and for example, the transmission assembly 53 may include a combination transmission structure of a plurality of gears or/and timing belts. In the present embodiment, the transmission assembly 53 includes a driving pulley 532, a driven pulley 533, and a belt 534. The driving pulley 532 and the driven pulley 533 are disposed at a parallel interval in the first direction X. The rotation axes of the driving pulley 532 and the driven pulley 533 are substantially parallel to the second direction Y, wherein the driving pulley 532 is located in the mounting chamber 16 and is drivingly connected to the driving member 521, and the driven pulley 533 is located in the accommodating chamber 12 and is rotatably connected to an inner wall of the tub 11 (shown in fig. 1).

To facilitate the installation of the belt 534, the installation partition 15 is provided with a relief opening 152 (as shown in fig. 3), the relief opening 152 penetrating the installation partition 15 in the first direction X, the relief opening 152 being located between the driving pulley 532 and the driven pulley 533. One end of the belt 534 near the driving member 521 is inserted through the relief port 152, and the belt 534 is wound around the driving pulley 532 and the driven pulley 533. The pushing body 5412 is connected to the belt 534 by a connection portion 5414. In use, the driving member 521 drives the driving pulley 532 to rotate, and the driving pulley 532 rotates to drive the belt 534 to rotate around the driving pulley 532 and the driven pulley 533, so that the pushing body 5412 is driven to move along the first direction X by the connection portion 5414.

In the present embodiment, the number of the transmission assemblies 53 is two, the two transmission assemblies 53 are respectively located at two opposite ends of the pushing body 5412, and the two connecting portions 5414 are respectively connected to the two transmission assemblies 53. The two transmission components 53 drive the pushing body 5412 to move at the same time, so that the stability and fluency of the movement of the pushing body 5412 are improved.

The two driving units 53 may be driven by two driving members 521 or may be driven by only one driving member 521, and in this embodiment, the driving unit 52 further includes a driving shaft 525. A drive shaft 525 is located within the mounting cavity 16 and is connected between the two drive assemblies 53, with both ends of the drive shaft 525 rotatably connected to the mounting diaphragm 15. Specifically, two ends of the transmission shaft 525 are respectively inserted into the driving pulleys 532 of the two transmission assemblies 53, and are in anti-rotation connection with the driving pulleys 532. The output end of the driving element 521 is in transmission connection with the transmission shaft 525, the driving element 521 drives one transmission component 53 to move, and drives the other transmission component 53 to move through the transmission shaft 525, and only one driving element 521 is required to drive the two transmission components 53 to move, so that parts are reduced, and cost and energy are saved to a certain extent.

The specific shape of the transmission shaft 525 is not limited in this specification, and for example, the transmission shaft 525 may be a circular shaft or a square shaft. In this embodiment, the transmission shaft 525 is a square shaft, which is not easy to slip in the use process, compared with the embodiment in which the transmission shaft 525 is designed to be a round shaft, so that the stability of transmission is improved. In some embodiments, to make proper use of the installation space within the installation cavity 16, the drive assembly 52 may further include a gear set 527, with the drive 521 drivingly connected to the drive shaft 525 through the gear set 527. The gear set 527 may include a driving gear and a driven gear, wherein the driving gear is in anti-rotation connection with the output end of the driving member 521, and the driven gear is sleeved on the transmission shaft 525 and in anti-rotation connection with the transmission shaft 525. Wherein, the "rotation-stopping connection" means that the driving member 521 can drive the driving gear to rotate the driven gear, so as to drive the transmission shaft 525 to rotate.

Referring to fig. 6 and 7, in this embodiment, the belt 534, the driving pulley 532 and the driving pulley 533 are used for driving, so as to ensure that the belt 534 is wound around the driving pulley 532 and the driven pulley 533 in a tight state, and in this embodiment, the closing mechanism 40 further includes a mounting case 58 for mounting the driving shaft 525. The mounting case 58 is detachably disposed on the mounting partition 15 and located at an end of the transmission shaft 525, and the mounting case 58 includes a mounting portion 581 and a fitting portion 583. The mounting portion 581 is movably connected to the mounting partition 15, and for the purpose of being cooperatively connected with the mounting portion 581, the mounting partition 15 is provided with positioning blocks 154, the positioning blocks 154 are protruded towards one side of the transmission shaft 525 relative to the mounting partition 15, the number of the positioning blocks 154 is two, and the two positioning blocks 154 are respectively arranged on two sides of the transmission shaft 525.

Referring to fig. 7 and 8, the mounting portion 581 is provided with a mounting groove 5812, and the mounting portion 581 is slidably coupled to the positioning block 154 through the mounting groove 5812. The mounting groove 5812 penetrates one side of the mounting portion 581, and the mounting groove 5812 is provided to extend in the axial direction of the transmission shaft 525. The number of the mounting grooves 5812 is two, the two mounting grooves 5812 are respectively located at two opposite sides of the transmission shaft 525, are arranged in one-to-one correspondence with the two positioning blocks 154, and the two positioning blocks 154 are respectively slidably embedded in the corresponding mounting grooves 5812 and are in clamping fit with the corresponding mounting portions 581.

The fitting portion 583 is connected to a side of the mounting portion 581 remote from the mounting partition 15, the fitting portion 583 is provided with a fitting hole 5832, and a shaft portion of the driving pulley 532 (shown in fig. 6) is movably accommodated in the fitting hole 5832. The shaft portion of the driving pulley 532 is rotatably engaged with the sleeve portion 583, and the shaft portion of the driving pulley 532 may be the structure of the driving pulley 532 itself or may be replaced by an end portion of the transmission shaft 525.

In the present embodiment, the number of the mounting cases 58 is two, and the two mounting cases 58 are provided at both ends of the transmission shaft 525, respectively. When the driving pulley 532 is mounted on the transmission shaft 525, the transmission shaft 525 is pulled to tighten the belt 5254, the mounting case 58 at one end is slidably sleeved on the positioning block 154 through the mounting groove 5812 of the mounting portion 581, the mounting portion 581 is slid into the sleeved hole 5832 of the shaft portion embedding portion 583 of the driving pulley 532, the mounting portion 581 is fixed on the positioning block 154 by using the screw, and the mounting case 58 at the other end is mounted on the mounting partition 15 according to the above-mentioned process, thereby completing the mounting of the transmission shaft 525. The transmission shaft 525 is arranged through the mounting shell 58, so that the tightening degree of the belt 534 is effectively ensured, and the smoothness and stability of transmission are improved.

When the garbage bag packaging device 100 provided by the embodiment of the application is applied to the intelligent garbage can 200, a user installs a garbage bag (namely, a garbage bag) on the installation box 30, the bottom of the garbage bag is located in the accommodating cavity 12, then garbage is placed in the garbage bag through the through hole 32 and the placing opening 14, when the garbage bag is required to be packaged, taken out and cleaned in the accommodating cavity 12, the driving member 521 drives the driving member 53 to drive the pushing member 541 to move along the first direction X near the cutting member 56, the pushing member 541 pushes the garbage bag to move towards the first heating member 561 and the second heating member 563, the garbage bag is attached to the first heating member 561 and the second heating member 563, the first heating member 561 cuts off and seals the garbage bag filled with articles in the accommodating cavity 12, the second heating member 563 seals the next garbage bag, and the next time is used. The garbage bag packaging device 100 provided by the application is convenient to use, can automatically cut off packaging garbage, can also realize sealing of the next garbage bag to be used, is high in efficiency, does not need users to package garbage by themselves, and improves the use experience of the users.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" is at least two, such as two, three, etc., unless explicitly defined otherwise.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting. Although the present application has been described in detail with reference to the foregoing embodiments, one of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some of the technical features thereof can be replaced by equivalents. Such modifications and substitutions do not drive the essence of the corresponding technical solutions to depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (13)

1. A garbage bag packing device, characterized in that the garbage bag packing device (100) is applied to an intelligent garbage can (200) to pack garbage bags in the intelligent garbage can (200); the intelligent garbage can (200) is provided with a placing opening (14) for passing through the garbage bag; the garbage bag packaging device (100) comprises:

a closing-in mechanism (40) adapted to be installed in the intelligent garbage can (200) for closing in the garbage bag located in the intelligent garbage can (200);

and a packaging mechanism (50) adapted to be mounted within the intelligent garbage can (200); the packaging mechanism (50) comprises a fixed seat (567), a first heating element (561) and a second heating element (563), wherein the first heating element (561) and the second heating element (563) are fixedly arranged on the fixed seat (567), the first heating element (561) and the second heating element (563) are arranged at intervals in parallel, and the fixed seat (567) is used for being installed inside the intelligent garbage can (200); when the packaging mechanism (50) is installed inside the intelligent garbage can (200), the second heating member (563) is located between the placement opening (14) and the first heating member (561).

2. The garbage bag packaging apparatus as claimed in claim 1, wherein the closing-in mechanism (40) comprises a driving assembly (52) and a pushing assembly (54), the driving assembly (52) is in transmission connection with the pushing assembly (54), the pushing assembly (54) is configured to be slidably disposed inside the intelligent garbage can (200), the pushing assembly (54) and the first heating element (561) are disposed in parallel along a first direction (X), and the driving assembly (52) is configured to drive the pushing assembly (54) to push the garbage bag to move along the first direction (X) so that the garbage bag is attached to the first heating element (561) to be cut off.

3. The garbage bag packaging apparatus according to claim 2, wherein the pushing assembly (54) comprises a high temperature resistant rubber strip (543) and a pushing member (541), the pushing member (541) is configured to be slidably disposed in the intelligent garbage can (200) and connected to the driving assembly (52), and the high temperature resistant rubber strip (543) is disposed on a side of the pushing member (541) facing the first heating member (561).

4. A disposal bag packing apparatus as claimed in claim 3, wherein the pushing assembly (54) further comprises two stoppers (545), the number of the stoppers (545) being two, the two stoppers (545) being respectively connected to both ends of the pushing member (541), the two stoppers (545) being arranged at a relative interval in a second direction (Y) for restricting the disposal bag in the second direction (Y), the second direction (Y) intersecting the first direction (X).

5. The garbage bag packaging apparatus according to claim 2, wherein the closing-in mechanism (40) further comprises a transmission assembly (53), and the transmission assembly (53) is drivingly connected between the driving assembly (52) and the pushing assembly (54) so as to drive the pushing assembly (54) to move away from or close to the first heating element (561) under the driving of the driving assembly (52).

6. The garbage bag packaging apparatus of claim 5, wherein the transmission assembly (53) includes a driving pulley (532), a driven pulley (533) and a belt (534), the driving pulley (532) and the driven pulley (533) are disposed at a parallel interval along the first direction (X), the driving pulley (532) is drivingly connected to the driving assembly (52), the driven pulley (533) is configured to be rotatably disposed inside the intelligent garbage can (200), the belt (534) is wound around the driving pulley (532) and the driven pulley (533), and the pushing assembly (54) is connected to the belt (534).

7. The garbage bag packaging apparatus according to claim 6, wherein the number of the transmission assemblies (53) is two, the two transmission assemblies (53) are respectively arranged at two sides of the driving assembly (52), and two sides of the driving assembly (52) are respectively connected with driving pulleys (532) of the two transmission assemblies (53).

8. The garbage bag packaging apparatus of claim 7, wherein the driving assembly (52) comprises a driving member (521) and a transmission shaft (525), the driving member (521) is configured to be mounted on the intelligent garbage can (200), the transmission shaft (525) is connected to an output end of the driving member (521), and the transmission shaft (525) is connected between driving pulleys (532) of the two driving assemblies (53).

9. The garbage bag packaging apparatus according to claim 6, wherein a positioning block (154) is provided inside the intelligent garbage can (200), and the closing-in mechanism (40) further comprises a mounting case (58), and the mounting case (58) is configured to be detachably connected to the inside of the intelligent garbage can (200); the mounting shell (58) comprises a mounting portion (581) and a sleeving portion (583), the mounting portion (581) is slidably matched with the positioning block (154), the sleeving portion (583) is connected to the mounting portion (581), and the shaft portion of the driving pulley (532) is rotatably accommodated in the sleeving portion (583).

10. The garbage bag packing apparatus as claimed in claim 9, wherein the mounting portion (581) is provided with a mounting groove (5812), the mounting groove (5812) penetrates through one side of the mounting portion (581) along an axial direction of the driving pulley (532), and the mounting portion (581) is slidably sleeved on an outer periphery of the positioning block (154) through the mounting groove (5812) and is in clamping fit with the positioning block (154).

11. The garbage bag packaging apparatus as claimed in claim 2, wherein the closing-in mechanism (40) further comprises two guide shafts (59), the two guide shafts (59) are arranged in the intelligent garbage can (200) and fixedly arranged at opposite ends of the first heating element (561), the pushing component (54) is arranged between the two guide shafts (59), and two ends of the pushing component (54) are slidably matched with the two guide shafts (59).

12. An intelligent garbage bin, characterized by comprising:

a containing barrel (10), wherein the containing barrel (10) is provided with a placement opening (14) for passing through the garbage bag;

and a garbage bag packing apparatus (100) according to any one of claims 1 to 11, the garbage bag packing apparatus (100) being provided to the accommodation tub (10).

13. The intelligent garbage can according to claim 12, further comprising a controller (70) and a sensor (80), wherein the controller (70) is electrically connected to the garbage bag packaging device (100), the sensor (80) is electrically connected to the controller (70), and the controller (70) is configured to control the garbage bag packaging device (100) to package the garbage bag in the intelligent garbage can (200) according to a signal detected by the sensor (80).