CN215852144U - Stacking device and bag arranging machine - Google Patents

Abstract

The utility model provides a stacking device which comprises a material receiving movable module, a material receiving falling assembly, a material receiving shielding piece and a buffer piece, wherein the material receiving falling assembly is arranged on the material receiving movable module; the receiving shielding piece is provided with a shielding surface used for contacting with an object to be collected; the material receiving movable module is provided with a material receiving position, the material receiving falling assembly is fixed on the movable part of the material receiving movable module, and the material receiving movable module drives the material receiving falling assembly to move to the material receiving position or leave the material receiving position; when the material receiving movable module drives the material receiving falling assembly to move to the material receiving position, the material receiving falling assembly is located below the material receiving shielding piece; the buffer piece is arranged on the shielding surface, and the bag arranging machine provided by the utility model comprises a material distributing device, a detecting device, a packing device and the stacking device, so that the effect of ensuring the stacking stability of the objects to be collected in the collected material falling assembly is achieved.

Description

Stacking device and bag arranging machine

Technical Field

The utility model belongs to the technical field of bag tidying machines, and particularly relates to a stacking device and a bag tidying machine.

Background

The packaging bag, especially the plastic packaging bag, provides a great deal of convenience for daily work and life. The production of the packaging bags is usually performed on a bag arranging machine, which stacks a plurality of packaging bags together and then ties up them using a rubber band or the like, so that the bundled packaging bags are prepared, and then the bundled packaging bags are manually placed in a packaging material (woven bag or packaging box) for convenient storage and transportation.

The existing bag arranging machine comprises a material distributing device, a detecting device, a stacking device and a packing device, wherein the material distributing device is used for sequentially conveying a single packaging bag to the detecting device. The detection device comprises a detection mechanism and a waste discharge mechanism, the detection mechanism is used for detecting the packaging bags conveyed by the material distribution device, the detection mechanism is also used for conveying the qualified packaging bags to the stacking device, and the waste discharge mechanism is used for removing the unqualified packaging bags detected by the detection mechanism from the detection mechanism. The stacking device is used for receiving and stacking a plurality of qualified packaging bags conveyed by the inspection mechanism, and clamping and placing the stacked packaging bags into the packing device. The packing device is used for packing a plurality of stacked packing bags. The stacking device comprises a material receiving movable module, a material receiving dropping assembly and a material receiving shielding piece, wherein the material receiving movable module is provided with a material receiving position, the material receiving dropping assembly is fixed on the movable part of the material receiving movable module, the material receiving movable module drives the material receiving dropping assembly to move to the material receiving position, the material receiving dropping assembly is located below the material receiving shielding piece, and a plurality of qualified packaging bags are conveyed into the stacking device from the detection mechanism. Specifically, a plurality of qualified packaging bags are conveyed to the receiving and dropping assembly from the detection conveying assembly. Receive material blanking piece and be used for stopping and make a plurality of wrapping bags of qualification that stop to a plurality of wrapping bags that inspection mechanism carried and drop to receive material subassembly that drops, receive the horizontal activity of material blanking piece restriction wrapping bag, the wrapping bag drops under the effect of gravity in receiving material subassembly that drops.

However, when the packaging bag contacts with the receiving shielding piece, the packaging bag is easy to deform, so that the packaging bag is erected in the receiving falling assembly, and the packaging bag is not convenient to stack in the receiving falling assembly.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: to current reason bag machine wrapping bag with receive the material shielding piece contact time, the wrapping bag takes place deformation easily, leads to the wrapping bag to erect in receiving the material subassembly that drops, the wrapping bag of being not convenient for stacks the problem in receiving the material subassembly that drops, provides a stack device and reason bag machine.

In order to solve the technical problem, in one aspect, an embodiment of the utility model provides a stacking device, which comprises a material receiving movable module, a material receiving falling assembly, a material receiving shielding piece and a buffer piece;

the receiving shielding piece is provided with a shielding surface used for contacting with an object to be collected;

the material receiving movable module is provided with a material receiving position, the material receiving falling assembly is fixed on the movable part of the material receiving movable module, and the material receiving movable module drives the material receiving falling assembly to move to the material receiving position or leave the material receiving position;

when the material receiving movable module drives the material receiving falling assembly to move to the material receiving position, the material receiving falling assembly is located below the material receiving shielding piece;

the buffer member is disposed on the shielding surface.

Optionally, the bolster is buffering rubberized fabric, buffering rubberized fabric includes buffering fixed part and integrative setting and is in the buffering portion of buffering fixed part, the buffering fixed part is fixed receive material shielding piece is last, the buffering portion is located shelter from on the face.

Optionally, the buffer portion extends to below the receiving shutter.

Optionally, the buffer fabric is arranged along a vertical center line of the shielding surface.

Optionally, the buffer member is a buffer cotton, and the buffer cotton is fixed on the shielding surface.

Optionally, the receiving and dropping assembly comprises a first receiving member, a second receiving member, a receiving seat and a first receiving support member, the first receiving member and the second receiving member are arranged at intervals, and the first receiving member and the second receiving member are fixed on the first receiving support member;

the first material receiving supporting piece is arranged on the material receiving seat;

the material receiving seat, the first material receiving supporting piece, the first material receiving piece and the second material receiving piece are matched to support the object to be collected, the first corner of the object to be collected is located in the first material receiving piece, and the second corner of the object to be collected is located in the second material receiving piece.

Optionally, the first material receiving piece comprises a first side plate, a second side plate and a first material receiving connecting plate, one end of the first side plate and one end of the second side plate are fixed on the first material receiving connecting plate, and the first material receiving connecting plate is fixed on the first material receiving supporting piece;

the first side plate and the second side plate are arranged at intervals or are integrally connected;

the second material receiving piece comprises a third side plate, a fourth side plate and a second material receiving connecting plate, one end of the third side plate and one end of the fourth side plate are fixed on the second material receiving connecting plate, and the second material receiving connecting plate is fixed on the first material receiving supporting piece;

the third side plate and the fourth side plate are arranged at intervals or are integrally connected.

Optionally, the receiving and dropping assembly further comprises a third receiving member, a fourth receiving member and a second receiving support member, the first receiving member, the second receiving member, the third receiving member and the fourth receiving member are arranged at intervals, and the third receiving member and the fourth receiving member are fixed on the second receiving support member; the second material receiving supporting piece is arranged on the material receiving seat;

the third corner of the object to be collected is positioned in the third material collecting part, and the fourth corner of the object to be collected is positioned in the fourth material collecting part.

Optionally, the third material receiving piece comprises a fifth side plate, a sixth side plate and a third material receiving connecting plate, one end of the fifth side plate and one end of the sixth side plate are fixed on the third material receiving connecting plate, and the third material receiving connecting plate is fixed on the second material receiving supporting piece;

the fifth side plate and the sixth side plate are arranged at intervals or are integrally connected;

the fourth material receiving piece comprises a seventh side plate, an eighth side plate and a fourth material receiving connecting plate, one end of the seventh side plate and one end of the eighth side plate are fixed on the fourth material receiving connecting plate, and the fourth material receiving connecting plate is fixed on the second material receiving supporting piece;

the seventh side plate and the eighth side plate are arranged at intervals or are integrally connected;

the material receiving seat, the first material receiving support piece, the second material receiving support piece, the first material receiving connecting plate, the second material receiving connecting plate, the third material receiving connecting plate and the fourth material receiving connecting plate are matched to support objects to be collected, which are located in the material receiving falling assembly.

According to the stacking device provided by the embodiment of the utility model, when the stacking device needs to collect the object to be collected, a user controls the material collecting movable module to drive the material collecting falling component to move to the material collecting position, the object to be collected enters the material collecting shielding piece and collides against the shielding surface, the buffering piece is in contact with the object to be collected, the collision force of the object to be collected is offset, the object to be collected does not need to counteract the collision force between the object to be collected and the material collecting shielding piece by means of self deformation, so that the object to be collected does not deform much, the object to be collected is ensured to directly fall into the material collecting falling component under the action of gravity, and a plurality of objects to be collected are stacked in the material collecting falling component. When the objects to be collected in the material receiving and falling assembly are stacked to a certain amount, the user controls the material receiving movable module to drive the material receiving and falling assembly to move away from the material receiving position, so that the material receiving and falling assembly is away from the material receiving baffle plate, and stacked sub packaging bags in the material receiving and falling assembly can be taken out conveniently.

On the other hand, the embodiment of the utility model provides a bag arranging machine, which comprises a material distributing device, a detecting device, a packaging device and the stacking device;

the material distribution device is used for sequentially conveying single packaging bags to the detection device, and the detection device comprises a detection mechanism and a waste discharge mechanism;

the detection mechanism is used for detecting the packaging bags conveyed by the material distribution device, and is also used for conveying the qualified packaging bags to the stacking device;

the waste discharge mechanism is used for removing unqualified packaging bags detected by the detection mechanism from the detection mechanism;

the stacking device is used for receiving and stacking a plurality of qualified packaging bags conveyed by the detection mechanism;

the packing device is used for packing a plurality of stacked packing bags.

Drawings

Fig. 1 is a schematic structural view of a bag arranging machine provided by an embodiment of the utility model;

FIG. 2 is a schematic structural diagram of a stacking apparatus according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

fig. 4 is a schematic structural view of a material receiving and dropping assembly provided in the embodiment of the present invention;

FIG. 5 is a schematic view of a prior art object to be collected;

fig. 6 is a partial schematic view of a stacking apparatus according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

1. a stacking device; 11. a material receiving movable module; 111. a material receiving position; 12. a material receiving and dropping assembly; 121. A first receiving member; 1211. a first side plate; 1212. a second side plate; 1213. a first receiving connecting plate; 122. A second receiving member; 1221. a third side plate; 12211. a third contact surface; 1222. a fourth side plate; 12221, fourth contact surface; 1223. a second receiving connecting plate; 123. a material receiving seat; 124. a first material receiving support member; 125. a third receiving member; 1251. a fifth side plate; 1252. a sixth side plate; 12521. a sixth contact surface; 1253. a third material receiving connecting plate; 126. a fourth receiving member; 1261. a seventh side plate; 12611. a seventh contact surface; 1262. an eighth side plate; 12621. an eighth contact surface; 1263. a fourth receiving connecting plate; 127. A second material receiving support member; 13. a material receiving shielding piece; 131. a shielding surface; 132. a first shielding plate; 133. a second shielding plate; 134. a third shielding plate; 141. a buffer rubberized fabric; 1411. a buffer fixing part; 1412. a buffer section; 142. buffering cotton; 2. a material distributing device; 3. a detection device; 31. a detection mechanism; 32. a waste discharge mechanism; 4. a packaging device; 5. collecting the object; 51. a first corner portion; 52. a second corner portion; 53. a third corner portion; 54. a fourth corner portion.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

As shown in fig. 1, fig. 2, fig. 3 and fig. 5, in a stacking apparatus according to an embodiment of the present invention, a stacking apparatus 1 includes a material receiving movable module 11, a material receiving falling assembly 12, a material receiving blocking member 13 and a buffer member;

the receiving shutter 13 has a shutter face 131 for contact with the object 5 to be collected;

the material receiving movable module 11 is provided with a material receiving position 111, the material receiving falling component 12 is fixed on the movable part of the material receiving movable module 11, and the material receiving movable module 11 drives the material receiving falling component 12 to move to the material receiving position 111 or leave the material receiving position 111;

when the material receiving movable module 11 drives the material receiving falling component 12 to move to the material receiving position 111, the material receiving falling component 12 is located below the material receiving shielding piece 13;

the buffer member is provided on the shielding surface 131.

Compared with the prior art, when the stacking device 1 needs to collect the object 5 to be collected, a user controls the material collecting movable module 11 to enable the material collecting movable module 11 to drive the material collecting falling component 12 to move to the material collecting position 111, when the object 5 to be collected enters the material collecting shielding piece 13, the object 5 to be collected collides against the shielding surface 131, the buffering piece is in contact with the object 5 to be collected, the collision force of the object 5 to be collected is offset, the object 5 to be collected does not need to offset the collision force between the object 5 to be collected and the material collecting shielding piece 13 by means of self deformation, accordingly, the object 5 to be collected does not deform much, the object 5 to be collected is guaranteed to directly fall into the material collecting falling component 12 under the action of gravity, and a plurality of objects 5 to be collected are stacked in the falling component 12. When the objects 5 to be collected in the receiving falling assembly 12 are stacked to a certain amount, the user controls the receiving movable module 11 to drive the receiving falling assembly 12 to be away from the receiving position 111, so that the receiving falling assembly 12 is away from the receiving shielding plate, and stacked sub packaging bags in the receiving falling assembly 12 can be taken out conveniently.

Preferably, as shown in fig. 2, 3 and 6, the receiving shutter 13 is a receiving shutter or a receiving U-shaped member. The material receiving U-shaped piece comprises a first shielding plate 132, a second shielding plate 133 and a third shielding plate 134, the second shielding plate 133 and the third shielding plate 134 are oppositely arranged on one side face of the first shielding plate 132, the side face of the first shielding plate 132, on which the second shielding plate 133 and the third shielding plate 134 are fixed, is a shielding face 131, and when the material receiving U-shaped piece is used, the material 5 to be collected firstly enters between the second shielding plate 133 and the third shielding plate 134 and then contacts with the buffer.

In one embodiment, as shown in fig. 6, the buffering member is a buffering adhesive tape 141, the buffering adhesive tape 141 includes a buffering fixing portion 1411 and a buffering portion 1412 integrally disposed on the buffering fixing portion 1411, the buffering fixing portion 1411 is fixed on the receiving shielding member 13, and the buffering portion 1412 is located on the shielding surface 131.

The buffer member is simple in structure, low in cost and very practical. The cushion rubber 141 is easy to install and replace. The buffer fixing portion 1411 provides a fixing function to the buffer tape 141. The cushion rubber 141 has a cushion function in the cushion portion 1412.

In one embodiment, as shown in fig. 6, the buffering portion 1412 extends to the lower part of the material receiving shielding member 13, and the buffering portion 1412 has better flexibility without affecting the movement of the material receiving falling assembly 12 away from or close to the material receiving position 111; the length of the buffer portion 1412 is further increased, which is beneficial to ensuring that each object 5 to be collected is in contact with the buffer portion 1412.

In an embodiment, as shown in fig. 6, the buffer plaster 141 is arranged along the vertical midline of the shielding surface 131, ensuring that each object 5 to be collected is in contact with the buffer portion 1412, which is less costly for the buffer plaster 141 arranged along the vertical midline of the shielding surface 131 than if the buffer plaster 141 were completely covered on the shielding surface 131.

In one embodiment, the buffering member is buffering cotton 142, the buffering cotton 142 is fixed on the shielding surface 131, and the buffering cotton 142 has a simple structure and low cost. Preferably, the cushion cotton 142 is foam or sponge.

In one embodiment, as shown in fig. 4, the material receiving and dropping assembly 12 includes a first material receiving member 121, a second material receiving member 122, a material receiving seat 123 and a first material receiving supporting member 124, wherein the first material receiving member 121 and the second material receiving member 122 are arranged at intervals, and the first material receiving member 121 and the second material receiving member 122 are fixed on the first material receiving supporting member 124;

the first material receiving supporting member 124 is arranged on the material receiving seat 123;

the material receiving seat 123, the first material receiving supporting member, the first material receiving member 121 and the second material receiving member 122 support the object 5 to be collected in a matching manner, the first corner 51 of the object 5 to be collected is located in the first material receiving member 121, and the second corner 52 of the object 5 to be collected is located in the second material receiving member 122.

As shown in fig. 5, the object 5 to be collected is a printing paper or a packing bag. The packaging bag is a square bag or an irregular bag, when the packaging bag is a square bag, the square bag comprises a first corner part 51, a second corner part 52, a third corner part 53 and a fourth corner part 54, the first corner part 51 and the second corner part 52 are symmetrically arranged, and the third corner part 53 and the fourth corner part 54 are symmetrically arranged. When the square bag is located in the material receiving and dropping assembly 12, the first corner 51 is located in the first material receiving member 121, and the second corner 52 is located in the second material receiving member 122, so as to prevent the object 5 to be collected in the material receiving and dropping assembly 12 from separating from the material receiving and dropping assembly 12.

In one embodiment, as shown in fig. 4 and 6, the buffering portion 1412 extends to a position below the material receiving shielding member 13, and the buffering portion 1412 located below the material receiving shielding member 13 is located between the first material receiving member 121 and the second material receiving member 122, so as to ensure that the objects 5 to be collected are in contact with the buffering portion 1412 during the process of falling to the material receiving and dropping assembly 12, thereby achieving the effect of buffering each object 5 to be collected.

In one embodiment, as shown in fig. 4, the first material receiving member 121 includes a first side plate 1211, a second side plate 1212 and a first material receiving connecting plate 1213, wherein one end of the first side plate 1211 and one end of the second side plate 1212 are fixed to the first material receiving connecting plate 1213, and the first material receiving connecting plate 1213 is fixed to the first material receiving supporting member 124;

the first side plate 1211 and the second side plate 1212 are spaced apart from each other or integrally connected to each other;

the second receiving member 122 includes a third side plate 1221, a fourth side plate 1222, and a second receiving connecting plate 1223, one end of the third side plate 1221 and one end of the fourth side plate 1222 are fixed to the second receiving connecting plate 1223, and the second receiving connecting plate 1223 is fixed to the first receiving support 124;

the third and fourth side panels 1221 and 1222 are spaced apart or integrally connected.

The first receiving member 121 has a simple structure and is very practical

In one embodiment, as shown in fig. 4, the material receiving and dropping assembly 12 further includes a third material receiving member 125, a fourth material receiving member 126 and a second material receiving support member 127, the first material receiving member 121, the second material receiving member 122, the third material receiving member 125 and the fourth material receiving member 126 are arranged at intervals, and the third material receiving member 125 and the fourth material receiving member 126 are fixed on the second material receiving support member 127; the second material receiving supporting member 127 is disposed on the material receiving seat 123;

the third corner 53 of the object 5 is located in the third receiving member 125, and the fourth corner 54 of the object 5 is located in the fourth receiving member 126.

The second receiving member 122 has a simple structure and is very practical.

As shown in fig. 4, a surface of the first side plate 1211 is set as a first contact surface, a surface of the second side plate 1212 is set as a second contact surface, a surface of the third side plate 1221 is set as a third contact surface 12211, and a surface of the fourth side plate 1222 is set as a fourth contact surface 12221; the first contact surface, the second contact surface, the third contact surface 12211 and the fourth contact surface 12221 are used for contacting with the side of the square bag; the first and third contact surfaces 12211 are located on the same vertical plane, and the second contact surface faces the fourth contact surface 12221.

In one embodiment, as shown in FIG. 4, the third material receiving member 125 includes a fifth side plate 1251, a sixth side plate 1252 and a third material receiving connecting plate 1253, one end of the fifth side plate 1251 and one end of the sixth side plate 1252 are fixed to the third material receiving connecting plate 1253, and the third material receiving connecting plate 1253 is fixed to the second material receiving supporting member 127;

the fifth side plate 1251 and the sixth side plate 1252 are arranged at intervals or integrally connected;

the fourth material receiving member 126 comprises a seventh side plate 1261, an eighth side plate 1262 and a fourth material receiving connecting plate 1263, one end of the seventh side plate 1261 and one end of the eighth side plate 1262 are fixed on the fourth material receiving connecting plate 1263, and the fourth material receiving connecting plate 1263 is fixed on the second material receiving supporting member 127;

the seventh side plate 1261 and the eighth side plate 1262 are spaced apart from each other or integrally connected to each other.

The third receiving member 125 and the fourth receiving member 126 have a simple structure and are very practical.

The material receiving seat 123, the first material receiving support, the second material receiving support, the first material receiving connecting plate 1213, the second material receiving connecting plate 1223, the third material receiving connecting plate 1253 and the fourth material receiving connecting plate 1263 cooperate to support the object 5 to be collected in the material receiving and dropping assembly 12.

In one embodiment, as shown in fig. 4, a surface of the fifth side plate 1251 is a fifth contact surface, a surface of the sixth side plate 1252 is a sixth contact surface 12521, a surface of the seventh side plate 1261 is a seventh contact surface 12611, and a surface of the eighth side plate 1262 is an eighth contact surface 12621; the fifth contact surface, the sixth contact surface 12521, the seventh contact surface 12611 and the eighth contact surface 12621 are configured to contact a side edge of the packaging bag; fifth and seventh contact surfaces 12611 lie in the same vertical plane, the fifth contact surface facing the first contact surface, the seventh contact surface 12611 facing the second contact surface, and the sixth contact surface 12521 facing the eighth contact surface 12621.

In addition, as shown in fig. 1, fig. 2 and fig. 3, an embodiment of the present invention further provides a bag arranging machine, which includes a material distributing device 2, a detecting device 3, a packing device 4 and the above-mentioned one stacking device;

the material distribution device 2 is used for sequentially conveying single packaging bags to the detection device 3, and the detection device 3 comprises a detection mechanism 31 and a waste discharge mechanism 32;

the detection mechanism 31 is used for detecting the packaging bags conveyed by the material distribution device 2, and the detection mechanism 31 is also used for conveying the qualified packaging bags to the stacking device;

the waste discharge mechanism 32 is used for removing unqualified packaging bags detected by the detection mechanism 31 from the detection mechanism 31;

the stacking device 1 is used for receiving and stacking a plurality of qualified packaging bags conveyed by the detection mechanism 31;

the packing device 4 is used for packing a plurality of stacked packing bags.

Preferably, the waste discharging mechanism 32 has an output end, the receiving shielding piece 13 is located at one side of the output end of the waste discharging mechanism 32, and the packaging bag output from the output end of the waste discharging mechanism 32 is separated from the waste discharging mechanism 32 and flies toward the shielding surface 131.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A stacking device is characterized by comprising a material receiving movable module, a material receiving falling assembly, a material receiving shielding piece and a buffer piece;

the receiving shielding piece is provided with a shielding surface used for contacting with an object to be collected;

the material receiving movable module is provided with a material receiving position, the material receiving falling assembly is fixed on the movable part of the material receiving movable module, and the material receiving movable module drives the material receiving falling assembly to move to the material receiving position or leave the material receiving position;

when the material receiving movable module drives the material receiving falling assembly to move to the material receiving position, the material receiving falling assembly is located below the material receiving shielding piece;

the buffer member is disposed on the shielding surface.

2. The stacking apparatus as claimed in claim 1, wherein the buffering member is a buffering adhesive tape, the buffering adhesive tape includes a buffering fixing portion and a buffering portion integrally disposed on the buffering fixing portion, the buffering fixing portion is fixed on the receiving shielding member, and the buffering portion is disposed on the shielding surface.

3. The stacking device of claim 2, wherein the buffer extends below the receiving screen.

4. The stacking device of claim 2, wherein said cushion gum is disposed along a vertical centerline of said blind face.

5. A stacking device as claimed in claim 1, wherein said buffer means is a buffer cotton, said buffer cotton being fixed to said screening surface.

6. The stacking apparatus of claim 1, wherein the material receiving drop assembly comprises a first material receiving member, a second material receiving member, a material receiving seat, and a first material receiving support member, the first material receiving member and the second material receiving member being spaced apart from each other, the first material receiving member and the second material receiving member being fixed to the first material receiving support member;

the first material receiving supporting piece is arranged on the material receiving seat;

the material receiving seat, the first material receiving supporting piece, the first material receiving piece and the second material receiving piece are matched to support the object to be collected, the first corner of the object to be collected is located in the first material receiving piece, and the second corner of the object to be collected is located in the second material receiving piece.

7. The stacking device of claim 6, wherein the first receiving member comprises a first side plate, a second side plate and a first receiving connecting plate, one end of the first side plate and one end of the second side plate are fixed to the first receiving connecting plate, and the first receiving connecting plate is fixed to the first receiving support member;

the first side plate and the second side plate are arranged at intervals or are integrally connected;

the second material receiving piece comprises a third side plate, a fourth side plate and a second material receiving connecting plate, one end of the third side plate and one end of the fourth side plate are fixed on the second material receiving connecting plate, and the second material receiving connecting plate is fixed on the first material receiving supporting piece;

the third side plate and the fourth side plate are arranged at intervals or are integrally connected.

8. The stacking apparatus of claim 7, wherein said material drop assembly further comprises a third material receiving member, a fourth material receiving member and a second material receiving support member, said first material receiving member, said second material receiving member, said third material receiving member and said fourth material receiving member being spaced apart, said third material receiving member and said fourth material receiving member being secured to said second material receiving support member; the second material receiving supporting piece is arranged on the material receiving seat;

the third corner of the object to be collected is positioned in the third material collecting part, and the fourth corner of the object to be collected is positioned in the fourth material collecting part.

9. The stacking apparatus of claim 8, wherein the third receiving member comprises a fifth side plate, a sixth side plate and a third receiving connecting plate, one end of the fifth side plate and one end of the sixth side plate are fixed to the third receiving connecting plate, and the third receiving connecting plate is fixed to the second receiving support member;

the fifth side plate and the sixth side plate are arranged at intervals or are integrally connected;

the fourth material receiving piece comprises a seventh side plate, an eighth side plate and a fourth material receiving connecting plate, one end of the seventh side plate and one end of the eighth side plate are fixed on the fourth material receiving connecting plate, and the fourth material receiving connecting plate is fixed on the second material receiving supporting piece;

the seventh side plate and the eighth side plate are arranged at intervals or are integrally connected;

the material receiving seat, the first material receiving support piece, the second material receiving support piece, the first material receiving connecting plate, the second material receiving connecting plate, the third material receiving connecting plate and the fourth material receiving connecting plate are matched to support objects to be collected, which are located in the material receiving falling assembly.

10. A bag arranging machine, characterized in that it comprises a separating device, a detecting device, a packing device and a stacking device according to any one of the claims 1-9;

the material distribution device is used for sequentially conveying single packaging bags to the detection device, and the detection device comprises a detection mechanism and a waste discharge mechanism;

the detection mechanism is used for detecting the packaging bags conveyed by the material distribution device, and is also used for conveying the qualified packaging bags to the stacking device;

the waste discharge mechanism is used for removing unqualified packaging bags detected by the detection mechanism from the detection mechanism;

the stacking device is used for receiving and stacking a plurality of qualified packaging bags conveyed by the detection mechanism;

the packing device is used for packing a plurality of stacked packing bags.

Images