CN218987656U

CN218987656U - Intelligent packaging garbage can

Info

Publication number: CN218987656U
Application number: CN202222803169.3U
Authority: CN
Inventors: 崔鸿刚
Original assignee: Dongguan Yunzhijia Intelligent Technology Co ltd
Current assignee: Dongguan Yunzhijia Intelligent Technology Co ltd
Priority date: 2022-10-21
Filing date: 2022-10-21
Publication date: 2023-05-09
Anticipated expiration: 2032-10-21

Abstract

The utility model discloses an intelligent packaging garbage can, which comprises: the garbage can comprises a can body, a second section cover hinged at the opening of the upper end of the can body, a cover opening module which is arranged in the can body and used for pushing the second section cover open, a first sensor which is arranged in the second section cover and used for sensing garbage capacity, a transmission rod which is arranged at one side in the can body, a first connecting rod which is hinged at one end of the transmission rod and hinged with the second section cover, a first motor which is arranged at the other end of the transmission rod and used for pushing the transmission rod to move up and down, a second connecting rod and a third connecting rod which are arranged between one end of the transmission rod and an output shaft of the motor and hinged with each other, and a first battery which is used for supplying power for the first motor. Through setting up the module of uncapping of automatic top-opening with the second section lid in the ladle body, when first sensor detects that the ladle body is interior rubbish is full, just triggers the module work of uncapping and pushes open the second section lid to convenience of customers takes out the disposal bag, avoids rubbish to deposit in the ladle body for a long time.

Description

Intelligent packaging garbage can

Technical field:

the utility model relates to the field of articles for daily use, in particular to an intelligent packaging garbage can.

The background technology is as follows:

a trash can, also known as a waste bin or dustbin, refers to a container that holds waste. Traditional garbage bin adopts manual opening lid generally, and some garbage bin is provided with pedal opening, but all need the manual cooperation to open. Along with the continuous development of science and technology, intelligent sensing garbage cans gradually appear on the market, but the sensing garbage cans are relatively common garbage cans, in short, the cover can be opened and closed through the sensor, manual operation and foot treading are not needed, and the sensing garbage cans are convenient. But the existing intelligent induction garbage bin has the following problems: after the garbage bin fills up the garbage, need the manual upper segment of ladle body to open first, then can take out the disposal bag in the follow garbage bin, this in-process user need know earlier that the rubbish in the garbage bin is full, but present intelligent response garbage bin can't in time give the suggestion that the user disposal bag is full, and the user can't discover after the lid can't be covered usually, leads to the disposal bag unable in time to handle, produces the peculiar smell, influences indoor environment.

In view of this, the present inventors have proposed the following means.

The utility model comprises the following steps:

the utility model aims to overcome the defects of the prior art and provides an intelligent packaging garbage can.

In order to solve the technical problems, the utility model adopts the following technical scheme: an intelligent packaging garbage can, comprising: the garbage can comprises a can body, a two-section cover hinged to the opening at the upper end of the can body, a cover opening module which is arranged in the can body and used for pushing the two-section cover open, a first sensor which is arranged in the two-section cover and used for sensing garbage capacity, a transmission rod which is arranged on one side in the can body, a first connecting rod which is hinged to one end of the transmission rod and hinged to the two-section cover, a first motor which is arranged at the other end of the transmission rod and used for pushing the transmission rod to move up and down, a second connecting rod and a third connecting rod which are arranged between one end of the transmission rod and an output shaft of the motor and hinged to each other, and a first battery which is used for supplying power for the first motor.

Furthermore, in the above technical solution, one end of the third link is mounted on the output shaft of the motor, the other end of the third link is hinged to one end of the second link, and the other end of the second link is hinged to the other end of the transmission rod.

Furthermore, in the above technical scheme, the upper end of the barrel body is provided with a rotating shaft for hinging and installing the two-section cover, a shaft sleeve hinged and fixed with the rotating shaft is arranged in the two-section cover, the first connecting rod is hinged with the shaft sleeve, and the first connecting rod is arc-shaped.

Furthermore, in the above technical scheme, a partition plate covering the first motor is arranged at the bottom of the barrel body, and a fan for exhausting air to enable the barrel body to generate vacuum is further arranged below the partition plate.

In the above technical scheme, a bag box for storing garbage bags is further arranged in the two-section cover, and the blower automatically extracts the garbage bags from the bag box by generating vacuum negative pressure in the barrel body; the upper end of the partition plate is provided with a convex cover for the second connecting rod to swing, and a second sensor for detecting whether garbage exists in the barrel body or not is further arranged in the convex cover.

In the above technical scheme, the upper end face of the two-section cover is provided with a flip mechanism for automatically opening and throwing, and a packaging mechanism for automatically packaging the garbage bags is also arranged in the two-section cover and is triggered and started by the first sensor; the front end of the two-section cover is provided with a third sensor for detecting that a human body approaches to start the flip mechanism.

In the above technical solution, the packing mechanism includes a first compression bar, a second compression bar, a third compression bar and a fourth compression bar that enclose each other to form a frame and can reduce and enlarge the enclosed space; the first synchronous belt pulley set and the second synchronous belt pulley set are respectively connected with two ends of the first pressure lever and the second pressure lever and drive the first pressure lever and the second pressure lever to synchronously draw close and separate; the transmission screw rod is arranged at one end of the first synchronous belt pulley group and one end of the second synchronous belt pulley group and is used for driving the third compression bar and the fourth compression bar to synchronously draw in and separate; the first driving device is used for driving the first synchronous pulley group and the second synchronous pulley group to synchronously move; the first transmission shaft is arranged at the other ends of the first synchronous belt wheel set and the second synchronous belt wheel set and connected with the first driving device; and the heating device is arranged on the first compression bar or the second compression bar.

In the above technical solution, a first travel hole and a second travel hole through which the first compression bar and the second compression bar pass are respectively provided on the third compression bar and the fourth compression bar, and the first compression bar and the second compression bar can move along the first row Cheng Konghe and the second travel hole to close, attach and separate; the transmission screw rod is parallel to the first compression rod and the second compression rod, a first spiral tooth part and a second spiral tooth part which are matched with the third compression rod and the fourth compression rod respectively are arranged on the transmission screw rod, a first tooth hole which is matched and meshed with the first spiral tooth part is formed in one end of the third compression rod, a second tooth hole which is matched and meshed with the second spiral tooth part is formed in one end of the fourth compression rod, and the spiral directions of the first spiral tooth part and the second spiral tooth part are opposite, so that the first compression rod and the second compression rod can move relatively.

Furthermore, in the above technical scheme, the two ends of the first synchronous pulley set are respectively provided with a first supporting seat and a second supporting seat for supporting, the two ends of the second synchronous pulley set are respectively provided with a third supporting seat and a fourth supporting seat for supporting, wherein the two ends of the transmission screw rod are respectively connected with the first synchronous pulley set and the first belt pulley and the third belt pulley at one end of the second synchronous pulley set, and the two ends of the first transmission shaft are respectively connected with the first synchronous pulley set and the second belt pulley and the fourth belt pulley at the other end of the second synchronous pulley set.

Furthermore, in the above technical scheme, the flip mechanism comprises a cover plate hinged on the two-section cover and a second motor for driving the cover plate to open, a driving gear is mounted on an output shaft of the second motor, and one end of the cover plate is provided with a gear part matched with the driving gear.

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the cover opening module capable of automatically opening the two-section cover is arranged in the bin body, when the first sensor detects that garbage in the bin body is full, the cover opening module is triggered to work, the first motor drives the third connecting rod to swing, the transmission rod is pushed to move upwards through the second connecting rod, and the two-section cover is pushed open through the first connecting rod, so that a user can conveniently take out the garbage bag.

Description of the drawings:

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of an door module according to the present utility model;

FIG. 3 is an internal block diagram of the present utility model;

FIG. 4 is a block diagram of a flip mechanism in accordance with the present utility model;

FIG. 5 is a perspective view of the packaging mechanism of the present utility model;

fig. 6 is an exploded view of the packaging mechanism of the present utility model.

The specific embodiment is as follows:

the utility model will be further described with reference to specific examples and figures.

Referring to fig. 1 to 6, an intelligent packaging garbage can comprises: the novel garbage can comprises a can body 1, a two-section cover 2 hinged to an opening at the upper end of the can body 1, a cover opening module 3 which is arranged in the can body 1 and is used for pushing away the two-section cover 2, a first sensor which is arranged in the two-section cover 2 and is used for sensing garbage capacity, the cover opening module 3 comprises a transmission rod 31 which is arranged at one side in the can body 1, a first connecting rod 32 which is hinged to one end of the transmission rod 31 and is hinged to the two-section cover 2, a first motor 33 which is arranged at the other end of the transmission rod 31 and is used for pushing the transmission rod 31 to move up and down, a second connecting rod 34 and a third connecting rod 35 which are arranged between one end of the transmission rod 31 and an output shaft of the motor and are hinged to each other, and a first battery 36 which is used for supplying power for the first motor 33. Through setting up the module 3 of uncapping that will two sections covers 2 automatic jack-ups in ladle body 1, it is full to detect the rubbish in the ladle body 1 when first sensor, just triggers the module 3 work of uncapping, by the swing of first motor 33 drive third connecting rod 35, and promote the upward movement of transfer line 31 through second connecting rod 34, the rethread first connecting rod 32 pushes away two sections covers 2, thereby the convenience of customers takes out the disposal bag, consequently, after uncapping module 3 jack-up two sections covers 2, the user can in time discover that the disposal bag is full, play the effect of suggestion user in time throwing away the disposal bag, avoid rubbish to deposit in ladle body 1 for a long time.

One end of the third connecting rod 35 is mounted on the output shaft of the motor, the other end of the third connecting rod 35 is hinged to one end of the second connecting rod 34, and the other end of the second connecting rod 34 is hinged to the other end of the transmission rod 31.

The upper end of the barrel body 1 is provided with a rotating shaft 11 for hinging and installing the two-section cover 2, a shaft sleeve 37 hinged and fixed with the rotating shaft 11 is arranged in the two-section cover 2, the first connecting rod 32 is hinged with the shaft sleeve 37, and the first connecting rod 32 is arc-shaped.

The bottom of the tub 1 is provided with a partition plate 12 covering the first motor 33, and a fan 13 for exhausting air to generate a vacuum state in the tub 1 is further installed below the partition plate 12.

A bag box 5 for storing the garbage bags is further arranged in the two-section cover 2, and the blower 13 automatically extracts the garbage bags from the bag box 5 by generating vacuum negative pressure in the barrel body 1; the upper end of the partition plate 12 is provided with a protruding cover 121 for the second connecting rod 34 to swing, and a second sensor for detecting whether there is garbage in the barrel body 1 is also arranged in the protruding cover 121. The first motor 33 and the fan 13 are shielded by the partition plate 12 arranged at the bottom of the barrel body 1, garbage is conveniently loaded in the garbage bag, the raised convex cover 121 is arranged on the partition plate 12, the transmission rod 31 passes through the middle of the convex cover 121, and the second connecting rod 34 is arranged in the convex cover 121, so that the second connecting rod 23 can swing by enough space when the third connecting rod 35 drives the second connecting rod 23 to move.

The upper end face of the two-section cover 2 is provided with a flip mechanism 4 for automatically opening and throwing, the two-section cover 2 is internally provided with a packing mechanism 6 for automatically packing garbage bags, and the packing mechanism 6 is triggered and started by the induction of the first sensor; the front end of the two-section cover 2 is provided with a third sensor for detecting that a human body approaches to start the flip mechanism 4. The battery 36 also provides power to the flip mechanism 4 and the packaging mechanism 6.

The packing mechanism 6 includes a first compression bar 61, a second compression bar 62, a third compression bar 63 and a fourth compression bar 64 which are mutually enclosed to form a frame and can reduce and enlarge an enclosed space; the first synchronous belt pulley set 65 and the second synchronous belt pulley set 66 are respectively connected to two ends of the first compression bar 61 and the second compression bar 62 and drive the first compression bar 61 and the second compression bar 62 to synchronously draw together and separate; the transmission screw 67 is arranged at one end of the first synchronous belt pulley group 65 and one end of the second synchronous belt pulley group 66 and is used for driving the third compression bar 63 and the fourth compression bar 64 to synchronously draw close and separate; a first driving device 68 for driving the first timing belt pulley group 65 and the second timing belt pulley group 66 to move synchronously; a first transmission shaft 69 provided at the other ends of the first and second timing

belt wheel sets

65 and 66 and connected to the first driving device 68; and a heating device 60 provided on the first compression bar 61 or the second compression bar 62. The first synchronous belt wheel set 65 and the second synchronous belt wheel set 66 are adopted to push the two ends of the first compression bar 61 and the second compression bar 62 to synchronously close and separate, so that the two ends of the first compression bar 61 and the second compression bar 62 can be stressed simultaneously, when the first compression bar 61 and the second compression bar 62 are attached to compress the garbage bag, the heating device 60 can be attached to the garbage bag smoothly, no inclination occurs, the sealing position of the garbage bag is smooth, and good sealing performance of the sealing position of the garbage bag is ensured.

A first travel hole 630 and a second travel hole 640 through which the first compression bar 61 and the second compression bar 62 pass are respectively arranged on the third compression bar 63 and the fourth compression bar 64, and the first compression bar 61 and the second compression bar 62 can move along the first travel hole 630 and the second travel hole 640 to be close to each other for attaching and detaching; the first stroke hole 630 and the second stroke hole 640 for the first compression bar 61 and the second compression bar 62 to pass through are arranged on the third compression bar 63 and the fourth compression bar 64, so that the first compression bar 61 and the second compression bar 62 and the third compression bar 63 and the fourth compression bar 64 can be tightly attached to each other without upper and lower layering alternation, the front side and the rear side of the garbage bag are folded and attached by the cooperation of the first compression bar 61 and the second compression bar 62, and the front side and the rear side of the garbage bag are folded and attached by the cooperation of the third compression bar 63 and the fourth compression bar 64, so that the smooth closing-up of the garbage bag is realized.

The transmission screw 67 is parallel to the first compression rod 61 and the second compression rod 62, a first spiral tooth 671 and a second spiral tooth 672 which are matched with the third compression rod 63 and the fourth compression rod 64 respectively are arranged on the transmission screw 67, a first tooth hole 631 which is matched and meshed with the first spiral tooth 671 is arranged at one end of the third compression rod 63, a second tooth hole 641 which is matched and meshed with the second spiral tooth 672 is arranged at one end of the fourth compression rod 64, and the spiral directions of the first spiral tooth 671 and the second spiral tooth 672 are opposite, so that the first compression rod 61 and the second compression rod 62 can relatively move. The first spiral tooth 671 and the second spiral tooth 672 are arranged at two ends of the transmission screw 67 in opposite directions, and the first spiral tooth 671 and the second spiral tooth 672 are respectively inserted into the first tooth hole 631 of the third pressing rod 63 and the second tooth hole 641 of the fourth pressing rod 64, so that the third pressing rod 63 and the fourth pressing rod 64 can be synchronously driven to move in opposite directions, namely, the closing movement and the separating movement can be realized when the transmission screw 67 rotates. The two ends of the first compression bar 61 are respectively connected with the lower parts of the belts in the first synchronous belt pulley group 65 and the second synchronous belt pulley group 66, and the two ends of the second compression bar 62 are respectively connected with the upper parts of the belts in the first synchronous belt pulley group 65 and the second synchronous belt pulley group 66. The first compression bar 61 and the second compression bar 62 are respectively connected with the lower part and the lower part of the belt in the first synchronous belt pulley group 65 and the second synchronous belt pulley group 66, so that when the first synchronous belt pulley group 65 moves, the upper part and the lower part of the belt drive the first compression bar 61 and the second compression bar 62 to move in opposite directions, namely mutual approaching and separating are realized, and similarly, when the first synchronous belt pulley group 65 moves, the first compression bar 61 and the second compression bar 62 are synchronously driven to move in opposite directions.

The belts in the first synchronous pulley set 65 and the second synchronous pulley set 66 are toothed belts, two ends of the first compression bar 61 are respectively provided with a first tooth groove portion 611 and a second tooth groove portion 612 which are engaged with the lower portions of the belts in the first synchronous pulley set 65 and the second synchronous pulley set 66 in a matching manner, and two ends of the second compression bar 62 are respectively provided with a third tooth groove portion 621 and a fourth tooth groove portion 622 which are engaged with the upper portions of the belts in the first synchronous pulley set 65 and the second synchronous pulley set 66 in a matching manner.

The first driving device 68 includes a first gear motor 681 and a first gear 682 mounted on an output shaft of the first gear motor 681 and adapted to mate with the first transmission shaft 69, and a first gear portion 691 adapted to mate with the first gear 682 is disposed on the first transmission shaft 69.

The heating device 60 comprises a ceramic member 601 mounted at the middle part of the first compression bar 61 and a heating wire 602 mounted on the ceramic member 601, wherein a part of the heating wire 602 protrudes out of the middle part of the ceramic member 601 and can be in contact with the second compression bar 62.

The front end of the ceramic member 601 is provided with a trapezoid protrusion 603 extending out of the first compression bar 61, and the heating wire 602 is located on the trapezoid protrusion 603.

The two ends of the first synchronous belt pulley group 65 are respectively provided with a first supporting seat 6A and a second supporting seat 6B for supporting, the two ends of the second synchronous belt pulley group 66 are respectively provided with a third supporting seat 6C and a fourth supporting seat 6D for supporting, wherein the two ends of the transmission screw 67 are respectively connected with a first belt pulley 651 and a third belt pulley 661 at one end of the first synchronous belt pulley group 65 and one end of the second synchronous belt pulley group 66, and the two ends of the first transmission shaft 69 are respectively connected with a second belt pulley 652 and a fourth belt pulley 662 at the other end of the first synchronous belt pulley group 65 and the second synchronous belt pulley group 66; a first guide post 6E for guiding one end of the first compression bar 61 and one end of the second compression bar 62 are arranged between the first support base 6A and the third support base 6C, and a second guide post 6F for guiding the other end of the first compression bar 61 and the other end of the second compression bar 62 are arranged between the second support base 6B and the fourth support base 6D.

When the packing mechanism 6 works, the first reducing motor 681 drives the first transmission shaft 69 to rotate through the first gear 682, and then the first transmission shaft 69 drives the first synchronous belt pulley group 65 and the second synchronous belt pulley group 66 to synchronously work; further, the first synchronous belt pulley group 65 and the second synchronous belt pulley group 66 drive the transmission screw rod 67 to move, meanwhile, the first synchronous belt pulley group 65 and the second synchronous belt pulley group 66 synchronously drive the first compression rod 61 and the second compression rod 62 to move relatively, and the transmission screw rod 67 simultaneously drives the third compression rod 63 and the fourth compression rod 64 to move relatively when moving, so that the approaching movement or separating movement of the first compression rod 61 and the second compression rod 62 and the approaching movement or separating movement of the third compression rod 63 and the fourth compression rod 64 are realized. For example, when the first gear motor 681 rotates in the forward direction, the first and

second compression bars

61 and 62 are driven to move relatively close together, while the third and

fourth compression bars

63 and 64 move relatively close together in synchronization; when the first gear motor 681 rotates reversely, the first compression bar 61 and the second compression bar 62 are driven to move relatively far away, and the third compression bar 63 and the fourth compression bar 64 synchronously move relatively far away.

The flip mechanism 4 comprises a cover plate 41 hinged on the two-section cover 2 and a second motor 42 for driving the cover plate 41 to open, a driving gear 43 is mounted on an output shaft of the second motor 42, and a gear portion 421 matched with the driving gear 43 is arranged at one end of the cover plate 41.

In summary, when the garbage bag packing device is used, after the first sensor detects that the garbage bag in the garbage can body 1 is full of garbage, the packing mechanism 6 is triggered to pack the garbage bag, and after the garbage bag is packed, the cover opening module 3 pushes the two-section cover 2 open, so that a user is prompted that the garbage bag is full and packed, and the user can take out the garbage bag in time conveniently. When the user takes the garbage bag off, the cover opening module 3 automatically covers the two-section cover 2 on the barrel body 1, and then the fan 13 pumps out the air in the barrel body 1, so that the negative pressure is generated in the barrel body 1 to automatically pump out the garbage bag in the bag box 5, and the automatic filling of the garbage bag is completed. When the third sensor detects that the user is approaching the waste bin, the cover plate 41 is driven by the second motor 42 in the flip mechanism 4 to automatically open, thereby facilitating the user to throw the waste into the waste bag of the bin body 1.

It is understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, but rather is to be accorded the full scope of all such modifications and equivalent structures, features and principles as set forth herein.

Claims

1. An intelligent packaging garbage bin, which is characterized by comprising: the novel garbage can comprises a can body (1), a two-section cover (2) hinged to an opening at the upper end of the can body (1), a cover opening module (3) arranged in the can body (1) and used for pushing the two-section cover (2) away, a first sensor arranged in the two-section cover (2) and used for sensing garbage capacity, the cover opening module (3) comprises a transmission rod (31) arranged at one side in the can body (1), a first connecting rod (32) hinged to one end of the transmission rod (31) and hinged to the two-section cover (2), a first motor (33) arranged at the other end of the transmission rod (31) and used for pushing the transmission rod (31) to move up and down, a second connecting rod (34) and a third connecting rod (35) which are arranged between one end of the transmission rod (31) and an output shaft of the motor and hinged to each other, and a first battery (36) used for supplying power to the first motor (33).

2. The intelligent packaging garbage can of claim 1, wherein: one end of the third connecting rod (35) is arranged on the output shaft of the motor, the other end of the third connecting rod (35) is hinged with one end of the second connecting rod (34), and the other end of the second connecting rod (34) is hinged with the other end of the transmission rod (31).

3. The intelligent packaging garbage can of claim 1, wherein: the upper end of ladle body (1) is provided with and is used for articulated installation pivot (11) of two sections lid (2), be provided with in two sections lid (2) with pivot (11) articulated fixed axle sleeve (37), first connecting rod (32) with axle sleeve (37) are articulated, first connecting rod (32) are the arc.

4. The intelligent packaging garbage can of claim 1, wherein: the bottom of the barrel body (1) is provided with a baffle plate (12) which is covered with the first motor (33), and a fan (13) for exhausting air to enable the interior of the barrel body (1) to generate a vacuum state is also arranged below the baffle plate (12).

5. The intelligent packaging garbage can of claim 4, wherein: a bag box (5) for storing garbage bags is further arranged in the two-section cover (2), and the fan (13) automatically extracts the garbage bags from the bag box (5) by generating vacuum negative pressure in the barrel body (1); the upper end of the partition plate (12) is provided with a convex cover (121) for the second connecting rod (34) to swing, and a second sensor for detecting whether garbage exists in the barrel body (1) is further arranged in the convex cover (121).

6. An intelligent packaging garbage can according to any one of claims 1-5, characterized in that: the upper end face of the two-section cover (2) is provided with a flip mechanism (4) for automatically opening and throwing, the two-section cover (2) is internally provided with a packing mechanism (6) for automatically packing garbage bags, and the packing mechanism (6) is triggered and started by the first sensor; the front end of the two-section cover (2) is provided with a third sensor for detecting that a human body approaches to start the flip mechanism (4).

7. The intelligent packaging garbage can of claim 6, wherein: the packing mechanism (6) comprises a first compression bar (61), a second compression bar (62), a third compression bar (63) and a fourth compression bar (64) which mutually enclose a frame and can reduce and enlarge an enclosed space; the first synchronous belt pulley set (65) and the second synchronous belt pulley set (66) are respectively connected to two ends of the first compression bar (61) and the second compression bar (62) and drive the first compression bar (61) and the second compression bar (62) to synchronously close and separate; the transmission screw rod (67) is arranged at one end of the first synchronous belt wheel group (65) and one end of the second synchronous belt wheel group (66) and is used for driving the third pressing rod (63) and the fourth pressing rod (64) to synchronously draw in and separate; a first driving device (68) for driving the first synchronous pulley group (65) and the second synchronous pulley group (66) to synchronously move; a first transmission shaft (69) which is arranged at the other ends of the first synchronous belt wheel group (65) and the second synchronous belt wheel group (66) and is connected with the first driving device (68); and a heating device (60) arranged on the first compression bar (61) or the second compression bar (62).

8. The intelligent packaging garbage can of claim 7, wherein: a first travel hole (630) and a second travel hole (640) for the first pressure rod (61) and the second pressure rod (62) to pass through are respectively arranged on the third pressure rod (63) and the fourth pressure rod (64), and the first pressure rod (61) and the second pressure rod (62) can move close to each other and are attached to and detached from each other along the first travel hole (630) and the second travel hole (640); the transmission screw rod (67) is parallel to the first compression rod (61) and the second compression rod (62), a first spiral tooth part (671) and a second spiral tooth part (672) which are matched with the third compression rod (63) and the fourth compression rod (64) are respectively arranged on the transmission screw rod (67), a first tooth hole (631) which is matched and meshed with the first spiral tooth part (671) is arranged at one end of the third compression rod (63), a second tooth hole (641) which is matched and meshed with the second spiral tooth part (672) is arranged at one end of the fourth compression rod (64), and the spiral directions of the first spiral tooth part (671) and the second spiral tooth part (672) are opposite, so that the first compression rod (61) and the second compression rod (62) can move relatively.

9. The intelligent packaging garbage can of claim 7, wherein: the two ends of the first synchronous belt pulley group (65) are respectively provided with a first supporting seat (6A) and a second supporting seat (6B) which are used for supporting, the two ends of the second synchronous belt pulley group (66) are respectively provided with a third supporting seat (6C) and a fourth supporting seat (6D) which are used for supporting, wherein the two ends of the transmission screw (67) are respectively connected with a first belt pulley (651) and a third belt pulley (661) at one end of the first synchronous belt pulley group (65) and one end of the second synchronous belt pulley group (66), and the two ends of the first transmission shaft (69) are respectively connected with a second belt pulley (652) and a fourth belt pulley (662) at the other end of the first synchronous belt pulley group (65) and the second synchronous belt pulley group (66).

10. The intelligent packaging garbage can of claim 6, wherein: the flip mechanism (4) comprises a cover plate (41) hinged to the two-section cover (2) and a second motor (42) used for driving the cover plate (41) to be opened, a driving gear (43) is arranged on an output shaft of the second motor (42), and a gear part (421) matched with the driving gear (43) is arranged at one end of the cover plate (41).