CN110316542B

CN110316542B - Pillow bag turnover mechanism

Info

Publication number: CN110316542B
Application number: CN201910544871.2A
Authority: CN
Inventors: 林潘忠; 张洁
Original assignee: Wenzhou Polytechnic
Current assignee: Chongqing Qianjiang Fengcaiduo Organic Fertilizer Co ltd
Priority date: 2019-06-21
Filing date: 2019-06-21
Publication date: 2020-11-17
Anticipated expiration: 2039-06-21
Also published as: CN110316542A

Abstract

The invention discloses a pillow pack turnover mechanism which is provided with a turnover driving unit, wherein the turnover driving unit comprises a pushing mechanism, the pushing mechanism is provided with a vertical plate, a baffle plate in sliding fit with an inner cavity of the vertical plate is arranged on the vertical plate, a driving assembly is arranged at the lower end of the baffle plate, a magnet plate is arranged on one side wall of the inner cavity, a first gear rack assembly and a second gear rack assembly are arranged on the other side of the inner cavity, and the first gear rack assembly is positioned above the second gear rack assembly. The pillow bag turnover mechanism provided by the invention adopts the structure, so that the pillow bag can be prevented from falling off the vertical plate, and the working efficiency of the pillow bag turnover mechanism is improved.

Description

Pillow bag turnover mechanism

Technical Field

The invention relates to the technical field of food and medicine packaging, in particular to a pillow bag turnover mechanism.

Background

In food, medicine packing technical field, pillow chartered plane is used for packing food, medicine, forms pillow package, and among the prior art, the pillow package that pillow chartered plane produced seals downwards, is unfavorable for the operation of follow-up station to pillow package, leads to production efficiency to reduce.

Chinese patent CN201820040253.5 discloses a pillow bag turning mechanism, the pillow pack overturning mechanism comprises a transmission unit, a blocking piece and an overturning driving unit, wherein the transmission unit is used for transmitting pillow packs, the pillow packs comprise a first end and a second end opposite along a first direction, the first direction is a horizontal direction perpendicular to the conveying direction of the conveying unit, the blocking piece and the overturning driving unit are oppositely arranged along the first direction, the blocking piece is fixed in position and is used for abutting against the second end of the pillow bag, so as to prevent the pillow pack from moving along the first direction, the overturning driving unit is used for applying force to the lower surface of the pillow pack, so that the first end of pillow package is higher than the second end and then the upset, upset drive unit includes along fixed bearing structure and the structure of falling of setting in proper order of direction of transfer, and the structure of falling includes vertical board, and butt portion is formed to the one side bending near the piece by the top of vertical board.

In the above patent document, since the outside of the vertical plate is not provided with the baffle, in the process of transporting pillow packs, the pillow packs can fall off from the vertical plate due to slight external interference, which affects the transporting efficiency of the pillow pack overturning mechanism.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a pillow bag turnover mechanism which solves the problems that pillow bags in the patent documents are easy to fall off and the conveying efficiency of the pillow bag turnover mechanism is low.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a pillow pack overturning mechanism is provided with an overturning driving unit, wherein the overturning driving unit comprises a pushing mechanism, the pushing mechanism is provided with a vertical plate, a baffle plate in sliding fit with an inner cavity of the vertical plate is arranged on the vertical plate, a driving assembly is arranged at the lower end of the baffle plate, a magnet plate is arranged on one side wall of the inner cavity, a first gear rack assembly and a second gear rack assembly are arranged on the other side of the inner cavity, and the first gear rack assembly is located above the second gear rack assembly;

when the baffle plate extends out of the vertical plate, the baffle plate can be connected with one side wall of the inner cavity in a clamping manner through the driving assembly and an elastic assembly arranged on one side wall of the inner cavity, and the baffle plate can be connected with the other side of the inner cavity in a suction manner through the first gear rack assembly and a magnet piece arranged on the baffle plate so as to connect the baffle plate to the vertical plate;

work as the baffle stretches into when in the riser, the baffle can pass through drive assembly with magnet board actuation is connected in order with a lateral wall of inner chamber links to each other, the baffle can pass through second gear rack subassembly is in with the setting elasticity fastener block on the baffle is connected in order with the opposite side of inner chamber links to each other, in order to incite somebody to action the baffle is connected on the riser.

Further, the drive assembly includes:

the guide block is arranged at the bottom end of the baffle and is in sliding fit with the guide plate positioned in the inner cavity;

one end of the connecting rod is hinged to the guide block;

one end of the swing rod is hinged to the other end of the connecting rod, and the middle of the swing rod is pivoted on the mounting plate positioned in the inner cavity;

one end of the rotating rod is pivoted on the mounting plate, the other end of the rotating rod is hinged on a sliding block, and the sliding block is in sliding fit with the oscillating rod;

when the baffle extends out of the vertical plate, the other end of the swing rod can be connected with the elastic component in a clamping manner so as to connect the baffle with one side of the vertical plate; when the baffle stretches into in the riser, the other end of pendulum rod with the magnet board actuation is connected, in order with the baffle with one side of riser links to each other.

Furthermore, the elastic component comprises a first elastic piece and a second elastic piece, the first elastic piece and the second elastic piece are arranged in a mounting groove in the side plate in the inner cavity, the first elastic piece is arranged on the bottom wall of the mounting groove, the first elastic piece can be connected with a first clamping groove in the swing rod in a clamping mode, the second elastic piece is arranged on the side wall of the mounting groove, and the second elastic piece can be connected with a second clamping groove in the swing rod in a clamping mode.

Further, first elastic component includes the slope arm, the one end of slope arm with the diapire of mounting groove links to each other, the other end of slope arm to the lateral wall of mounting groove extends, just set up flutedly on the other end of slope arm, be connected with the spliced pole on the diapire of recess, the tip of spliced pole is equipped with the spherical cap, the top of spherical cap with the tip of spliced pole links to each other, just one side of spherical cap can with first draw-in groove block is connected.

Further, the second elastic component include with the connecting rod that the lateral wall of mounting groove links to each other, the tip of connecting rod to the side opening of mounting groove extends, the tip of connecting rod is connected with the joint body through a connecting plate, the joint body is the second cone on inclined plane including consecutive first cone and big terminal surface, the tip of first cone with the connecting plate links to each other, the main aspects of first cone with the tip of second cone links to each other, the main aspects of second cone and one side of downward sloping can with second draw-in groove block is connected.

Further, the first rack and pinion assembly includes:

the first gear is arranged in the inner cavity, and one side of the first gear can be meshed and connected with a first rack arranged on one side of the baffle;

the second gear is arranged in the inner cavity and is positioned above the first gear, and one side of the second gear is in meshed connection with the other side of the first gear;

the second rack is meshed and connected with the other side of the second gear, the second rack is in sliding fit with the pair of first guide seats positioned in the inner cavity, and one end of the second rack can be abutted against the first stop block positioned on the other side wall of the inner cavity;

one end of the first locking rod is connected with the other end of the second rack;

when the baffle stretches out when the riser is outer, the other end of first locking lever can stretch into and be located in the first heavy inslot of baffle one side, with set up and be in magnet piece actuation on the first heavy groove diapire is connected, with will the baffle is connected on the opposite side of riser.

Still further, the second rack and pinion assembly includes:

the third gear is arranged in the inner cavity, and one side of the third gear can be meshed with the first rack;

the fourth gear is arranged in the inner cavity, is positioned below the third gear and is in meshed connection with one side of the third gear;

the third rack is meshed and connected with the other side of the fourth gear, the third rack is in sliding fit with a pair of second guide seats positioned in the inner cavity, and one end of the third rack can be abutted against a second stop block positioned on the other side wall of the inner cavity;

one end of the second locking rod is connected with the other end of the third rack;

when the baffle stretches into when in the riser, the other end of second locking lever can stretch into and be located in the second of baffle one side sinks the groove, with set up and be in the sunken inslot of second block piece block on the wall is connected, in order to incite somebody to action the baffle is connected on the opposite side of riser.

Furthermore, the elastic clamping piece comprises a plurality of elastic arms, the elastic arms are annularly distributed on the annular plate located on the bottom wall of the second sinking groove, the cantilever ends of the elastic arms extend towards the center of the second sinking groove, and the cantilever ends of the elastic arms can be clamped and connected with the corresponding V-shaped groove on the second locking rod so as to connect the baffle on the other side of the vertical plate.

Further, the elastic arm includes consecutive slope linking arm and V-arrangement arm, the one end of slope linking arm with the annular plate links to each other, the other end of slope linking arm to the middle part in the heavy groove of second extends, a side arm of V-arrangement arm with the other end of slope linking arm links to each other, just the top of V-arrangement arm can with the V-arrangement groove block that corresponds on the second locking lever is connected, with will the baffle is connected on the opposite side of riser.

(III) advantageous effects

The invention has the beneficial effects that: the baffle plates are arranged on the outer sides of the vertical plates, so that the pillow packs can be prevented from falling off in the conveying process, the conveying efficiency of the pillow packs is improved, the subsequent processing efficiency of the pillow packs is improved, the baffle plates are in sliding fit with the vertical plates, and when the pillow packs are idle, the baffle plates can be inserted into the vertical plates, so that the occupied space of the pillow packs is reduced.

Drawings

Fig. 1 is a partial structural schematic diagram of the present invention.

Fig. 2 is a sectional view taken along a-a of fig. 1.

Fig. 3 is yet another state diagram of fig. 2.

Fig. 4 is an enlarged view at I in fig. 2.

Fig. 5 is an enlarged view at G in fig. 4.

Fig. 6 is an enlarged view at F in fig. 2.

Fig. 7 is an enlarged view at H in fig. 3.

Fig. 8 is an enlarged view at K in fig. 7.

In the drawings: the vertical plate 10, the inner cavity 101, the guide plate 1011, the sliding groove 10111, the mounting plate 1012, the side plate 1013, the mounting groove 10131, the first guide seat 1014, the first stopper 1015, the second guide seat 1016, the second stopper 1017, the baffle 20, the first sinking groove 201, the second sinking groove 202, the annular plate 2021, the push handle 30, the driving component 1, the guide block 11, the connecting rod 12, the swing rod 13, the first clamping groove 131, the second clamping groove 132, the rotating rod 14, the slider 15, the magnet plate 2, the first gear rack component 3, the first gear 31, the second gear 32, the second rack 33, the first locking rod 34, the second gear rack component 4, the third gear 41, the fourth gear 42, the third rack 43, the second locking rod 44, the V-shaped groove 441, the magnet 5, the elastic clamping piece 6, the elastic arm 61, the inclined arm 611, the V-shaped arm 612, the first elastic piece 7, the inclined arm 71, the groove 711, the connecting column 72, the spherical crown 73, the second elastic piece 8, Connecting rod 81, connecting plate 82, joint body 83, first cone 831, second cone 832, first rack 9.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present invention.

Referring to fig. 1 to 8, a pillow pack turning mechanism has a turning driving unit including a pushing mechanism, as shown in fig. 1, the push-down mechanism has a vertical plate 10, as shown in fig. 2 and 3, a baffle 20 which is in sliding fit with an inner cavity 101 of the vertical plate 10 is arranged on the vertical plate 10, the lower end of the baffle plate 20 is provided with a driving component 1, one side wall of the inner cavity 101 is provided with a magnet plate 2, the other side of the inner cavity 101 is provided with a first gear rack component 3 and a second gear rack component 4, the first gear rack component 3 is positioned above the second gear rack component 4, since the outer side of the vertical plate 10 is provided with the baffle 20, the pillow pack can be prevented from falling off the vertical plate 10 during the transportation, therefore, the conveying efficiency of the pillow packet turnover mechanism is improved, and the subsequent processing efficiency of pillow packets is improved.

When the baffle 20 extends out of the vertical plate 10, the baffle 20 can be connected with an elastic component arranged on one side wall of the inner cavity 101 through the driving component 1 in a clamping manner so as to be connected with one side wall of the inner cavity 101, and the baffle 20 can be connected with a magnet piece 5 arranged on the baffle 20 through the first gear rack component 3 in a suction manner so as to be connected with the other side of the inner cavity 101, so that the baffle 20 is connected with the vertical plate 10; when the baffle 20 extends into the vertical plate 10, the baffle 20 can be connected with the magnet plate 2 through the driving component 1 in an attracting manner to be connected with one side wall of the inner cavity 101, and the baffle 20 can be connected with the other side of the inner cavity 101 through the second gear rack component 4 and the elastic clamping piece 6 arranged on the baffle 20 in a clamping manner to connect the baffle 20 to the vertical plate 10, so that when the pillow pack turnover mechanism does not work, the baffle 20 can be inserted into the vertical plate 10, and therefore the occupied space of the pillow pack turnover mechanism can be reduced.

In this embodiment, the upper end of the baffle 20 is provided with a push-pull handle 30, so that a person can push and pull the baffle 20 conveniently.

As shown in fig. 4, the driving assembly 1 includes a guide block 11, a connecting rod 12, a swing rod 13 and a rotating rod 14, the guide block 11 is disposed on the bottom end of the baffle 20, and the guide block 11 is in sliding fit with a guide plate 1011 located in the inner cavity 101, specifically, the guide block 11 is in sliding fit with a sliding chute 10111 on the guide plate 1011, one end of the connecting rod 12 is hinged on the guide block 11, one end of the swing rod 13 is hinged on the other end of the connecting rod 12, the middle part of the swing rod 13 is pivoted on a mounting plate 1012 located in the inner cavity 101, one end of the rotating rod 14 is pivoted on the mounting plate 1012, the other end of the rotating rod 14 is hinged on a sliding block 15, and the sliding block 15 is in sliding fit with the swing rod 13.

As shown in fig. 2, 3 and 4, when the baffle 20 is pulled out of the vertical plate 10, the other end of the swing link 13 can be in snap connection with the elastic component to connect the baffle 20 with one side of the vertical plate 10; when the baffle 20 is pushed into the vertical plate 10, the other end of the swing rod 13 is connected with the magnet plate 2 in an attracting mode, so that the baffle 20 is connected with one side of the vertical plate 10.

When the baffle 20 is pulled out of the vertical plate 10, the baffle 20 drives the guide block 11 to slide downwards along the sliding groove 10111, under the action of the connecting rod 12, the swing rod 13 swings, the rotating rod 14 rotates, the sliding block 15 slides on the swing rod 13, and finally the non-connecting end of the swing rod 13 swings into the mounting groove 10131 and is connected with the elastic component in a clamping manner, so that the baffle 20 is connected with one side of the vertical plate 10; when the baffle 20 is pushed into the vertical plate 10, the baffle 20 drives the guide block 11 to slide upwards along the sliding groove 10111, under the action of the connecting rod 12, the swing rod 13 swings, the rotating rod 14 rotates and the sliding block 15 slides on the swing rod 13, and finally the non-connecting end of the swing rod 13 swings to the lower end of the magnet plate 2 and is attracted with the magnet plate 2, so that the baffle 20 is connected with one side of the vertical plate 10.

As shown in fig. 5, the elastic component includes a first elastic element 7 and a second elastic element 8, the first elastic element 7 and the second elastic element 8 are both disposed in a mounting groove 10131 on a side plate 1013 in the cavity 101, the first elastic element 7 is disposed on a bottom wall of the mounting groove 10131, the first elastic element 7 can be engaged with a first engaging groove 131 on the swing link 13, the second elastic element 8 is disposed on a side wall of the mounting groove 10131, and the second elastic element 8 can be engaged with a second engaging groove 132 on the swing link 13, so that the baffle 20 is securely connected to one side of the vertical plate 10.

As shown in fig. 5, the first elastic member 7 includes an inclined arm 71, one end of the inclined arm 71 is connected to the bottom wall of the mounting groove 10131, the other end of the inclined arm 71 extends toward the side wall of the mounting groove 10131, a groove 711 is formed in the other end of the inclined arm 71, a connecting column 72 is connected to the bottom wall of the groove 711, a spherical cap 73 is disposed at the end of the connecting column 72, the top of the spherical cap 73 is connected to the end of the connecting column 72, and one side of the spherical cap 73 can be engaged with the first engaging groove 131.

As shown in fig. 5, the second elastic member 8 includes a connecting rod 81 connected to the side wall of the mounting groove 10131, the end of the connecting rod 81 extends to the side opening of the mounting groove 10131, the end of the connecting rod 81 is connected to a clamping body 83 through a connecting plate 82, the clamping body 83 includes a first taper 831 and a second taper 832 with a large end surface being inclined planes, the small end of the first taper 831 is connected to the connecting plate 82, the large end of the first taper 831 is connected to the small end of the second taper 832, and the large end of the second taper 832 and one side of the downward inclination can be connected to the second locking groove 132 in a clamping manner.

As shown in fig. 2 and 6, the first gear rack assembly 3 includes a first gear 31, a second gear 32, a second rack 33, and a first locking bar 34, the first gear 31 is disposed within the internal cavity 101, and one side of the first gear 31 can be engaged with the first rack 9 installed at one side of the baffle plate 20, the second gear 32 is disposed in the inner cavity 101, the second gear 32 is located above the first gear 31, one side of the second gear 32 is engaged with the other side of the first gear 31, the second rack 33 is engaged with the other side of the second gear 32, and the second rack 33 is slidingly engaged with a pair of first guide seats 1014 located inside the internal cavity 101, one end of the second rack 33 can abut against the first stopper 1015 on the other side wall of the inner cavity 101, and one end of the first locking rod 34 is connected to the other end of the second rack 33.

In the present embodiment, the second gear 32 is located diagonally to the upper right of the first gear 31.

As shown in fig. 7, the second gear rack assembly 4 includes a third gear 41, a fourth gear 42, a third rack 43, and a second locking bar 44, the third gear 41 is disposed within the internal cavity 101, one side of the third gear 41 can be engaged with the first rack 9, the fourth gear 42 is disposed in the inner cavity 101, the fourth gear 42 is located below the third gear 41, and one side of the fourth gear 42 is engaged with the third gear 41, the third rack 43 is engaged with the other side of the fourth gear 42, and the third rack 43 is in sliding engagement with a pair of second guide seats 1016 located inside the internal cavity 101, one end of the third rack 43 can abut against the second stopper 1017 on the other side wall of the inner cavity 101, and one end of the second locking lever 44 is connected to the other end of the third rack 43.

In the present embodiment, the fourth gear 42 is located diagonally below and to the right of the third gear 41.

As shown in fig. 2, 3, 6 and 7, when the baffle 20 is pulled out of the vertical plate 10, the first rack 9 moves upward to drive the third gear 41 to rotate, thereby driving the fourth gear 42 to rotate, driving the third rack 43 to move rightward, so that the other end of the second locking rod 44 is separated from the second sinking groove 202 on one side of the baffle 20, when the first rack 9 moves to the first rack assembly 3, the first rack 9 moves upward to drive the first gear 31 to rotate, the first gear 31 drives the second gear 32 to rotate, so that the second rack 33 moves leftward, so that the other end of the first locking rod 34 extends into the first sinking groove 201 on one side of the baffle 20 to be in suction connection with the magnet piece 5 arranged on the bottom wall of the first sinking groove 201, and the baffle 20 is connected to the other side of the vertical plate 10.

As shown in fig. 2, 3, 6 and 7, when the baffle 20 is pushed into the vertical plate 10, the first rack 9 moves downward to drive the first gear 31 to rotate, the first gear 31 drives the second gear 32 to rotate, and the second rack 33 moves rightward, so that the other end of the first locking rod 34 is separated from the first sinking groove 201, and when the first rack 9 moves to the second gear rack assembly 4, the first rack 9 moves downward to drive the third gear 41 to rotate, so that the fourth gear 42 is driven to rotate, so that the third rack 43 moves leftward, so that the other end of the second locking rod 44 extends into the second sinking groove 202 and is engaged with the elastic engaging member 6 disposed on the bottom wall of the second sinking groove 202, so as to connect the baffle 20 to the other side of the vertical plate 10.

As shown in fig. 7 and 8, the elastic engaging member 6 includes a plurality of elastic arms 61, the plurality of elastic arms 61 are annularly distributed on an annular plate 2021 located on the bottom wall of the second sunken groove 202, specifically, the plurality of elastic arms 61 are annularly distributed around the axis of the annular plate 2021, a cantilever end of the elastic arm 61 extends toward the center of the second sunken groove 202, and the cantilever end of the elastic arm 61 can be engaged with a corresponding V-shaped groove 441 on the second locking rod 44 to connect the baffle 20 to the other side of the vertical plate 10.

In this embodiment, the elastic engaging member 6 includes 4 elastic arms 61, and an included angle between each two adjacent elastic arms 61 is 90 °.

As shown in fig. 8, the elastic arm 61 includes an inclined connecting arm 611 and a V-shaped arm 612 connected in sequence, one end of the inclined connecting arm 611 is connected to the annular plate 2021, the other end of the inclined connecting arm 611 extends toward the middle of the second sunken groove 202, one side arm of the V-shaped arm 612 is connected to the other end of the inclined connecting arm 611, and the top of the V-shaped arm 612 can be engaged with the corresponding V-shaped groove 441 on the second locking lever 44 to connect the baffle 20 to the other side of the vertical plate 10.

It should be noted that the described embodiments of the invention are only preferred ways of implementing the invention, and that all obvious modifications, which are within the scope of the invention, are all included in the present general inventive concept.

Claims

1. A pillow pack turnover mechanism is provided with a turnover driving unit, the turnover driving unit comprises a turnover mechanism, the turnover mechanism is provided with a vertical plate (10), and the turnover mechanism is characterized in that a baffle plate (20) in sliding fit with an inner cavity (101) of the vertical plate (10) is arranged on the vertical plate (10), a driving assembly (1) is arranged at the lower end of the baffle plate (20), a magnet plate (2) is arranged on one side wall of the inner cavity (101), a first gear rack assembly (3) and a second gear rack assembly (4) are arranged on the other side of the inner cavity (101), and the first gear rack assembly (3) is positioned above the second gear rack assembly (4);

when the baffle plate (20) extends out of the vertical plate (10), the baffle plate (20) can be connected with an elastic component arranged on one side wall of the inner cavity (101) through the driving component (1) in a clamping manner so as to be connected with one side wall of the inner cavity (101), and the baffle plate (20) can be connected with a magnet piece (5) arranged on the baffle plate (20) through the first gear rack component (3) in a suction manner so as to be connected with the other side of the inner cavity (101), so that the baffle plate (20) is connected to the vertical plate (10);

work as baffle (20) stretch into when in riser (10), baffle (20) can pass through drive assembly (1) with magnet board (2) actuation is connected with a lateral wall of inner chamber (101) links to each other, baffle (20) can pass through second gear rack subassembly (4) and setting are in elasticity fastener (6) block on baffle (20) is connected with the opposite side of inner chamber (101) links to each other, with baffle (20) are connected on riser (10).

2. Pillow turning mechanism according to claim 1, characterized in that the drive assembly (1) comprises:

the guide block (11) is arranged at the bottom end of the baffle (20), and the guide block (11) is in sliding fit with a guide plate (1011) positioned in the inner cavity (101);

one end of the connecting rod (12) is hinged to the guide block (11);

one end of the swing rod (13) is hinged to the other end of the connecting rod (12), and the middle part of the swing rod (13) is pivoted on a mounting plate (1012) positioned in the inner cavity (101);

one end of the rotating rod (14) is pivoted on the mounting plate (1012), the other end of the rotating rod (14) is hinged on a sliding block (15), and the sliding block (15) is in sliding fit with the swinging rod (13);

when the baffle (20) extends out of the vertical plate (10), the other end of the swing rod (13) can be connected with the elastic component in a clamping manner, so that the baffle (20) is connected with one side of the vertical plate (10); when baffle (20) stretch into in riser (10), the other end of pendulum rod (13) with magnet board (2) actuation is connected, in order to with baffle (20) with one side of riser (10) links to each other.

3. The pillow bag overturning mechanism according to claim 2, wherein the elastic assembly comprises a first elastic member (7) and a second elastic member (8), the first elastic member (7) and the second elastic member (8) are both disposed in a mounting groove (10131) on a side plate (1013) in the inner cavity (101), the first elastic member (7) is disposed on a bottom wall of the mounting groove (10131), the first elastic member (7) can be connected with a first clamping groove (131) on the swing rod (13) in a clamping manner, the second elastic member (8) is disposed on a side wall of the mounting groove (10131), and the second elastic member (8) can be connected with a second clamping groove (132) on the swing rod (13) in a clamping manner.

4. The pillow bag turnover mechanism according to claim 3, wherein the first elastic member (7) comprises an inclined arm (71), one end of the inclined arm (71) is connected with the bottom wall of the installation groove (10131), the other end of the inclined arm (71) extends towards the side wall of the installation groove (10131), a groove (711) is formed in the other end of the inclined arm (71), a connection column (72) is connected to the bottom wall of the groove (711), a spherical cap (73) is arranged at the end of the connection column (72), the top of the spherical cap (73) is connected with the end of the connection column (72), and one side of the spherical cap (73) can be connected with the first clamping groove (131) in a clamping manner.

5. The pillow bag overturning mechanism according to claim 4, wherein the second elastic member (8) comprises a connecting rod (81) connected with the side wall of the mounting groove (10131), the end of the connecting rod (81) extends towards the side opening of the mounting groove (10131), the end of the connecting rod (81) is connected with a clamping body (83) through a connecting plate (82), the clamping body (83) comprises a first cone (831) and a second cone (832) with a large end face being a slope, which are connected in sequence, the small end of the first cone (831) is connected with the connecting plate (82), the large end of the first cone (831) is connected with the small end of the second cone (832), and the large end and the downward-inclined side of the second cone (832) can be connected with the second clamping groove (132) in a clamping manner.

6. The pillow packet turning mechanism according to claim 1, characterized in that the first rack and pinion assembly (3) comprises:

a first gear (31), wherein the first gear (31) is arranged in the inner cavity (101), and one side of the first gear (31) can be meshed and connected with a first rack (9) arranged on one side of the baffle plate (20);

a second gear (32), wherein the second gear (32) is arranged in the inner cavity (101), the second gear (32) is positioned above the first gear (31), and one side of the second gear (32) is in meshed connection with the other side of the first gear (31);

the second rack (33), the second rack (33) is meshed with the other side of the second gear (32), the second rack (33) is in sliding fit with a pair of first guide seats (1014) in the inner cavity (101), and one end of the second rack (33) can abut against a first stop block (1015) on the other side wall of the inner cavity (101);

a first locking lever (34), one end of the first locking lever (34) being connected to the other end of the second rack (33);

when baffle (20) stretch out outside riser (10), the other end of first locking lever (34) can stretch into and be located in first heavy groove (201) of baffle (20) one side, with set up magnet piece (5) actuation on first heavy groove (201) diapire is connected, with baffle (20) are connected on the opposite side of riser (10).

7. The pillow-bag turning mechanism according to claim 6, characterized in that said second rack and pinion assembly (4) comprises:

a third gear (41), wherein the third gear (41) is arranged in the inner cavity (101), and one side of the third gear (41) can be meshed with the first rack (9);

a fourth gear (42), wherein the fourth gear (42) is arranged in the inner cavity (101), the fourth gear (42) is positioned below the third gear (41), and one side of the fourth gear (42) is in meshed connection with the third gear (41);

the third rack (43) is meshed with the other side of the fourth gear (42), the third rack (43) is in sliding fit with a pair of second guide seats (1016) in the inner cavity (101), and one end of the third rack (43) can abut against a second stop block (1017) on the other side wall of the inner cavity (101);

a second locking lever (44), one end of the second locking lever (44) being connected to the other end of the third rack (43);

when baffle (20) stretch into in riser (10), the other end of second locking lever (44) can stretch into be located in the second of baffle (20) one side sinks groove (202), with set up and be in elasticity block (6) block connection on the second sinks groove (202) diapire, with baffle (20) are connected on the opposite side of riser (10).

8. The pillow bag overturning mechanism according to claim 7, wherein the elastic clamping piece (6) comprises a plurality of elastic arms (61), the plurality of elastic arms (61) are annularly distributed on an annular plate (2021) on the bottom wall of the second sunken groove (202), a cantilever end of each elastic arm (61) extends towards the center of the second sunken groove (202), and the cantilever end of each elastic arm (61) can be clamped and connected with a corresponding V-shaped groove (441) on the second locking rod (44) to connect the baffle (20) to the other side of the vertical plate (10).

9. The pillow turning mechanism according to claim 8, wherein the elastic arm (61) comprises an inclined connecting arm (611) and a V-shaped arm (612) connected in sequence, one end of the inclined connecting arm (611) is connected with the annular plate (2021), the other end of the inclined connecting arm (611) extends toward the middle of the second sunken groove (202), one side arm of the V-shaped arm (612) is connected with the other end of the inclined connecting arm (611), and the top of the V-shaped arm (612) can be snap-connected with a corresponding V-shaped groove (441) on the second locking lever (44) to connect the retainer (20) on the other side of the vertical plate (10).