CN213948957U - Packaging box packaging equipment - Google Patents

Abstract

The application discloses packaging box packaging equipment which comprises a gluing belt assembly and a supporting assembly, wherein the gluing belt assembly comprises a supporting piece and a gluing belt structure arranged on the supporting piece; the supporting assembly comprises an underframe, a lifting structure and a driving structure, wherein a turntable is arranged on the underframe and is positioned below the gluing belt structure; the lifting structure comprises a plurality of guide posts which are arranged in parallel at intervals, the guide posts extend along the rotation axis of the turntable, the guide posts are connected with the bottom frame in a sliding manner along the rotation axis of the turntable, and the upper ends of the guide posts are connected with the supporting piece; the driving structure is connected with the lifting structure to drive the lifting structure to lift. This application embodiment makes packing box encapsulation equipment can beat the sticky tape to the packing box of co-altitude through the height of adjusting to beat the sticky tape subassembly and seal, and simultaneously, elevation structure has improved elevation structure's stability through a plurality of guide posts and chassis sliding connection, avoids beating the sticky tape subassembly and rocks and influence the sealed effect to the packing box.

Description

Packaging box packaging equipment

Technical Field

The application relates to the technical field of packaging, especially, relate to a packing box encapsulation equipment.

Background

Along with the rapid development of the electronic commerce industry in China, more and more fresh products, fruits and other products needing heat preservation are transported through express delivery, wherein before a packing box filled with perishable products such as the fresh products and the fruits is transported, the glue tape sealing is generally carried out on a gap between a box body and a box cover of the packing box through packing box packaging equipment, so that the sealing property of the packing box is improved, the heat preservation time of the packing box is further prolonged, and the products in the packing box are prevented from being rotten in the transportation process.

The existing packaging box packaging equipment generally fixes a packaging box on a rotating table, and when the rotating table drives the packaging box to rotate, a tape is adhered around the packaging box by a tape beating assembly so as to seal a gap between a box body and a box cover of the packaging box. In an exemplary embodiment, the height of the gluing belt assembly can be adjusted through the lifting device, and when the height of the packing box is changed, the height of the gluing belt assembly can be correspondingly adjusted, so that the packing box packaging equipment can seal the gluing belt of the packing boxes with different heights.

However, the lifting device of the existing packaging box packaging equipment is poor in structural stability, the adhesive tape beating assembly is easy to shake, the packaging box packaging equipment can shake when sealing the packaging box by the adhesive tape beating assembly, the adhesive tape beating assembly is likely to shake, the problem that the adhesive tape is not stably pasted on the packaging box is caused, and the sealing effect of the packaging box packaging equipment on the packaging box is further influenced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a packing box encapsulation equipment, aims at solving packing box encapsulation equipment and when beating the sticky tape to the packing box and seal, beat the sticky tape subassembly appear rocking and lead to the sticky tape not stably paste the problem on the packing box.

The embodiment of the application provides a packing box encapsulation equipment, packing box encapsulation equipment includes:

the adhesive tape beating assembly comprises a support piece and an adhesive tape beating structure arranged on the support piece;

the supporting assembly comprises a bottom frame, a lifting structure and a driving structure, wherein a turntable is arranged on the bottom frame, and the turntable is positioned below the gluing belt structure; the lifting structure comprises a plurality of guide posts which are arranged at intervals in parallel, the guide posts extend along the rotation axis of the turntable, the guide posts are connected with the base frame in a sliding manner along the rotation axis of the turntable, and the upper ends of the guide posts are connected with the supporting piece; the driving structure is connected with the lifting structure to drive the lifting structure to lift.

Optionally, a plurality of guide cylinders are arranged on the bottom frame, the number of the guide cylinders is equal to that of the guide posts, the guide cylinders correspond to the guide posts one by one, each guide cylinder is internally provided with a guide hole extending along the rotation axis of the turntable, the guide hole in each guide cylinder is matched with the corresponding guide post in shape, and the guide posts penetrate through the guide holes of the corresponding guide cylinders, so that the guide posts are slidably connected with the bottom frame.

Optionally, the driving structure includes a lead screw juxtaposed with the plurality of guide posts, a lead screw nut threadedly connected with the lead screw, and a transmission mechanism connected with the lead screw nut and driving the lead screw to rotate, the lead screw nut is rotatably connected with the bottom frame, and the top end of the lead screw is connected with the support member.

Optionally, the plurality of guide posts are distributed around the screw rod.

Optionally, the transmission mechanism comprises a handle, and a first chain wheel and a second chain wheel which are connected through a chain, the first chain wheel is arranged on the screw rod nut, the second chain wheel is rotatably connected with the bottom frame, and the handle is coaxially connected with the second chain wheel.

Optionally, a locking structure is further arranged on the bottom frame, the locking structure corresponds to the screw rod in position, and the locking structure is used for being connected with the screw rod so as to lock the screw rod.

Optionally, the lifting structure further comprises a connecting member, the plurality of guide posts are connected together with the connecting member, and the connecting member is located below the supporting member and has a space with the supporting member.

Optionally, the chassis includes a support plate, the lower ends of the plurality of guide posts penetrate through the support plate and are slidably connected with the support plate, and the connecting member is located below the support plate and is connected with the lower ends of the plurality of guide posts.

Optionally, the supporting member is disposed in a plate shape, the adhesive tape applying structure is disposed on an upper surface of the supporting member, and upper ends of the plurality of guide posts are fixedly connected to a lower surface of the supporting member.

Optionally, the adhesive tape applying structure comprises a first driving mechanism, a second driving mechanism, a first abutting roller and a second abutting roller which are arranged in parallel at intervals, wherein the first driving mechanism is rotatably connected with the first abutting roller and drives the first abutting roller to move along the radial direction of the first abutting roller; the second driving mechanism is rotatably connected with the second abutting roller and drives the second abutting roller to move along the radial direction of the second abutting roller.

Optionally, the adhesive tape applying assembly comprises an adhesive tape wheel rotatably connected to the support, and the adhesive tape wheel and the first abutting roller are arranged in parallel at intervals.

Optionally, the packing box packaging equipment still include with the chassis rotates the carousel of connecting, first butt gyro wheel with the second butt gyro wheel is located the carousel top, packing box packaging equipment still include with the pressure disk assembly that support piece connects, pressure disk assembly is including being located the pressure disk of carousel top, and with the pressure disk is connected and is driven the pressure disk is followed the fifth actuating mechanism that the axis of rotation of carousel removed, the axis of rotation of pressure disk with the axis of rotation of carousel is coaxial.

The packing box encapsulation equipment that this application embodiment provided adjusts the height of beating the gluey area of taking through elevation structure, when removing the packing box of co-altitude on the carousel, can go up and down through drive structure drive elevation structure to drive support piece goes up and down, and then the height of beating the gluey area of taking is beaten in the adjustment, makes the height of beating the gluey area of taking and the high adaptation of packing box, thereby improves packing box encapsulation equipment's application scope.

Moreover, elevation structure is through a plurality of guide posts and chassis sliding connection, can make being connected between elevation structure and the chassis more stable, and difficult relative chassis produces and rocks to make elevation structure is last to beat the position of gluing the assembly of bands and remain stable, avoids beating the assembly of bands and is beating the sealed in-process of gluing the area to the packing box, beats the assembly of bands and produces and rock and lead to the tape-stripping not in place, and then the sealed effect of influence to the packing box.

Drawings

The technical solution and other advantages of the present application will become apparent from the detailed description of the embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an embodiment of a packaging box packaging apparatus provided in an embodiment of the present application;

FIG. 2 is another perspective view of the package encapsulation apparatus of FIG. 1;

FIG. 3 is a schematic structural diagram of an embodiment of a rubberizing tape assembly provided by an embodiment of the present application;

FIG. 4 is an enlarged view taken at A in FIG. 3;

fig. 5 is a connection relation diagram of the gluing belt assembly, the platen assembly, the lifting structure and the driving structure provided by the embodiment of the application.

A packing box packaging apparatus 100; a support assembly 110; a chassis 111; a support plate 1111; a guide cylinder 112; a turntable 113; a container positioning structure 114; a clamp plate 1141; the locking structure 115; a clamp member 1151; a fastener 1154; a lifting structure 116; a guide post 1164; a connector 1162; a drive structure 117; a lead screw 1171; a drive mechanism 1172; a first sprocket 1173; a second sprocket 1174; a handle 1175; a chain 1176; a rubberizing tape assembly 120; a support member 121; a taping structure 122; a first driving mechanism 1221; a first rotating bracket 1222; a first connection 1223; a first driving member 1224; a second driving mechanism 1225; a second rotating bracket 1226; a second connection portion 1227; a second driving member 1228; a first abutment roller 123; a second abutment roller 124; a tape cutting mechanism 125; a third drive mechanism 1251; a cutter 1252; a tape wheel 126; the power assist mechanism 127; powered rollers 1271; fourth drive mechanism 1272; a guide roller 128; an adhesive tape stop 129; a U-shaped stopper 1291; an intermediate connecting portion 1292; a limit clamp groove 1293; an intermediate roller 130; a first transmission assembly 131; a second transmission assembly 132; a platen assembly 133; a platen 134; a fifth driving mechanism 135; and (6) packaging the box 200.

Detailed Description

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

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

The embodiment of the application provides a beat sticky tape subassembly and packing box encapsulation equipment. The following are detailed below.

Firstly, the embodiment of the application provides packaging box packaging equipment which comprises an adhesive tape beating assembly and a support assembly, wherein the adhesive tape beating assembly comprises a support and an adhesive tape beating structure arranged on the support; the supporting assembly comprises an underframe, a lifting structure and a driving structure, wherein a turntable is arranged on the underframe and is positioned below the gluing belt structure; the lifting structure comprises a plurality of guide posts which are arranged in parallel at intervals, the guide posts extend along the rotation axis of the turntable, the guide posts are connected with the bottom frame in a sliding manner along the rotation axis of the turntable, and the upper ends of the guide posts are connected with the supporting piece; the driving structure is connected with the lifting structure to drive the lifting structure to lift.

Fig. 1 is a schematic structural diagram of an embodiment of a packaging box packaging device provided by the present application. As shown in fig. 1, the packaging box packaging equipment 100 includes a support assembly 110 and a gluing belt assembly 120, the support assembly 110 includes a base frame 111, a turntable 113 is arranged on the base frame 111, the gluing belt assembly 120 is arranged on the base frame 111, and the gluing belt assembly 120 is arranged above the turntable 113, after the packaging box 200 moves onto the turntable 113, the packaging box 200 is driven to rotate by rotating the turntable 113, so that the gluing belt assembly 120 abuts against the side wall of the packaging box 200 and moves along the circumferential direction of the packaging box 200, and the adhesive tape is pressed on the side wall of the packaging box 200.

The gluing belt assembly 120 is located above the turntable 113, the gluing belt assembly 120 may be located directly above the turntable 113, or the gluing belt assembly 120 may be offset by a certain distance from directly above the turntable 113, and after the packaging box 200 is moved onto the turntable 113, the gluing belt assembly 120 may abut against the side wall of the packaging box 200 and press the adhesive tape against the side wall of the packaging box 200.

Wherein, still be provided with packing box location structure 114 on the carousel 113, fix a position packing box 200 through packing box location structure 114, prevent that packing box 200 from removing relative carousel 113 to make the stable pasting of sticky tape on the lateral wall of packing box 200.

As shown in fig. 1 and 3, the gluing belt assembly 120 includes a support member 121, and a gluing belt structure 122 disposed on the support member 121, where the gluing belt structure 122 includes a first driving mechanism 1221, a second driving mechanism 1225, and a first abutting roller 123 and a second abutting roller 124 that are disposed in parallel at intervals, and the first driving mechanism 1221 is rotatably connected to the first abutting roller 123 and drives the first abutting roller 123 to move in its radial direction; the second driving mechanism 1225 is rotatably connected to the second abutment roller 124, and drives the second abutment roller 124 to move in its own radial direction.

When the gluing strip assembly 120 is installed on the packaging box packaging equipment 100, the rotation axes of the first abutting roller 123 and the second abutting roller 124 of the gluing strip assembly 120 can be made to be consistent with the rotation axis of the turntable 113, after the packaging box 200 is moved onto the turntable 113, the heights of the middle parts of the first abutting roller 123 and the second abutting roller 124 can be made to be equal to the height of a gap between a box body and a box cover of the packaging box 200, and then the first abutting roller 123 is driven by the first driving mechanism 1221 to abut against the side wall of the packaging box 200 along the radial direction of the first abutting roller 123 so as to adhere the head end of the adhesive tape to the side wall of the packaging box 200, and the adhesive tape covers the gap between the box body and the box cover of the packaging box 200; at the same time, the second abutment roller 124 is driven by the second driving mechanism 1225 to move in the radial direction of the second abutment roller 124 itself to a position of abutment against the side wall of the packing case 200. The acting force between the first abutting roller 123 and the side wall of the packing case 200 is smaller than the acting force between the second abutting roller 124 and the side wall of the packing case 200.

Then, the rotating disc 113 drives the packing box 200 to rotate along the direction from the first abutting roller 123 to the second abutting roller 124, so that the first abutting roller 123 and the second abutting roller 124 roll on the side wall of the packing box 200, the first abutting roller 123 presses more adhesive tapes on the side wall of the packing box 200, and the second abutting roller 124 applies more pressure on the adhesive tapes adhered on the side wall of the packing box 200, so that the adhesive tapes are firmly adhered on the side wall of the packing box 200, and the adhesive tapes can stably seal the gap between the box body and the box cover of the packing box 200. Especially, when the ratio of the length and the width of the packing box 200 is greater than 2, the gluing tape assembly 120 can firstly paste the adhesive tape at the corner of the packing box 200 preliminarily through the first abutting roller 123, then firmly press the adhesive tape through the second abutting roller 124, so that the problem that the adhesive tape at the corner of the packing box 200 falls off is avoided, and the packaging effect of the packing box packaging equipment 100 on the packing box 200 is improved.

From this, beat the sticky tape subassembly 120 in this application when beating the sticky tape and seal to packing box 200 on the carousel 113, can be earlier through first butt gyro wheel 123 with the preliminary pasting of sticky tape on the lateral wall of packing box 200 to ensure the sticky tape can cover the gap between the box and the case lid of packing box 200, then, rethread second butt gyro wheel 124 extrudees the sticky tape of pasting on the lateral wall of packing box 200, so that the firm pasting of sticky tape is on the lateral wall of packing box 200, thereby improve the sealed effect of sticky tape to packing box 200.

Alternatively, as shown in fig. 3, the first driving mechanism 1221 may include a first rotating bracket 1222 rotatably connected to the supporting member 121, and a first driving member 1224 connected to the first rotating bracket 1222, wherein the first abutting roller 123 is rotatably connected to the first rotating bracket 1222, and a rotation axis of the first rotating bracket 1222 is identical to and spaced apart from a rotation axis of the first abutting roller 123, and when the first driving member 1224 drives the first rotating bracket 1222 to rotate, the first abutting roller 123 can be driven to rotate along its own radial direction, so that the first abutting roller 123 is close to the sidewall of the packing box 200 on the rotating plate 113, or the first abutting roller 123 is far from the sidewall of the packing box 200 on the rotating plate 113.

The rotation axis of the first rotating bracket 1222 may be coincident with the rotation axis of the first contact roller 123, the rotation axis of the first rotating bracket 1222 may be parallel to the rotation axis of the first contact roller 123, or the rotation axis of the first rotating bracket 1222 may have a smaller angle of 1 ° or 2 ° with the rotation axis of the first contact roller 123.

Alternatively, the first driving member 1224 may include a first driving cylinder having one end hinged to the support member 121 and the other end hinged to the first rotating bracket 1222 to drive the first rotating bracket 1222 to rotate. Wherein, first actuating cylinder can be any actuating cylinder structure that can carry out concertina movement such as pneumatic cylinder, electronic jar, and through the flexible of the first actuating cylinder of control, can change the length at first actuating cylinder both ends, and then promote first runing rest 1222 rotatory.

Alternatively, the first driving member 1224 may include a first driving motor, the first driving motor is disposed on the supporting member 121, and a rotating shaft of the first driving motor is directly connected to the first rotating bracket 1222, or the rotating shaft of the first driving motor is connected to the first rotating bracket 1222 through a gear to drive the first rotating bracket 1222 to rotate.

In other embodiments, the first driving member 1224 may also include a first sliding member slidably connected to the supporting member 121, and a third driving member connected to the first sliding member and driving the first sliding member to slide, wherein the first abutting roller 123 is rotatably connected to the first sliding member, and a sliding direction of the first sliding member forms an angle with a rotation axis of the first abutting roller 123, so that when the first driving member 1224 drives the first sliding member to slide, the first abutting roller 123 can be driven to move along its own radial direction.

Alternatively, as shown in fig. 3, the second driving mechanism 1225 includes a second rotating bracket 1226 rotatably connected to the first rotating bracket 1222, and a second driving member 1228 connected to the second rotating bracket 1226, wherein the rotation axis of the first rotating bracket 1222 is identical to and spaced apart from the rotation axis of the second rotating bracket 1226, and the second abutment roller 124 is connected to the second rotating bracket 1226, and when the second driving member 1228 drives the second rotating bracket 1226 to rotate, the second abutment roller 124 can be driven to rotate along its own radial direction. By rotatably connecting the second rotating bracket 1226 to the first rotating bracket 1222, when the first rotating bracket 1222 rotates, the second rotating bracket 1226 is driven to rotate together, and the relative position between the first abutting roller 123 on the first rotating bracket 1222 and the second abutting roller 124 on the second rotating bracket 1226 can be kept unchanged, so that the acting force between the first abutting roller 123 and the second abutting roller 124 and the side wall of the packing box 200 can be kept stable during the rotation of the packing box 200.

Alternatively, the second driving member 1228 may include a second driving cylinder, one end of which is hinged to the first rotating bracket 1222 and the other end of which is hinged to the second rotating bracket 1226 to drive the second rotating bracket 1226 to rotate relative to the first rotating bracket 1222. Wherein, the second actuating cylinder can be any actuating cylinder structure that can carry out concertina movement such as pneumatic cylinder, electronic jar, and through controlling the second actuating cylinder flexible, can change the length at first actuating cylinder both ends, and then promote the rotatory support 1226 of second and rotate.

Alternatively, the second driving member 1228 may also include a second driving motor, the second driving motor is disposed on the first rotating bracket 1222, and a rotating shaft of the second driving motor is directly connected to the second rotating bracket 1226, or the rotating shaft of the second driving motor is connected to the second rotating bracket 1226 through a gear to drive the second rotating bracket 1226 to rotate.

In other embodiments, the second driving member 1228 may also include a second sliding member slidably connected to the second supporting member 121, and a fourth driving member connected to the second sliding member and driving the second sliding member to slide, the second abutting roller 124 is rotatably connected to the second sliding member, and a sliding direction of the second sliding member is included with the rotation axis of the second abutting roller 124, so that when the second driving member 1228 drives the second sliding member to slide, the second abutting roller 124 can be driven to move along its own radial direction.

Specifically, as shown in fig. 3, the first rotating bracket 1222 includes a first end and a second end opposite to each other, and a first connecting portion 1223 located between the first end and the second end, the first connecting portion 1223 is rotatably connected to the supporting bracket, the first driving member 1224 includes a first driving cylinder, one end of the first driving cylinder is hinged to the first end of the first rotating bracket 1222, the other end of the first driving cylinder is hinged to the supporting member 121, and the first abutting roller 123 is rotatably connected to the second end of the first rotating bracket 1222. Therefore, by controlling the extension and contraction of the first driving cylinder, an acting force can be applied to the first end of the first rotating bracket 1222 to push the first rotating bracket 1222 to rotate relative to the supporting member 121, and further to drive the first abutting roller 123 at the second end of the first rotating bracket 1222 to rotate along the radial direction of the first abutting roller 123.

The second rotating bracket 1226 includes the third end and the fourth end that are relative, and is located the second connecting portion 1227 between third end and the fourth end, and the third end of second rotating bracket 1226 rotates with the first end of first support to be connected, and second butt gyro wheel 124 rotates with the fourth end of second rotating bracket 1226 to be connected, and second driving piece 1228 includes the second actuating cylinder, and the one end of second actuating cylinder is articulated with first rotating bracket 1222, and the other end is articulated with second connecting portion 1227. Through the flexible second actuating cylinder of control, can exert the effort to the second connecting portion 1227 of second runing rest 1226, promote the rotation of second runing rest 1226 relative first runing rest 1222, and then drive the rotation of second butt gyro wheel 124 along its self radial direction on the fourth end of second runing rest 1226.

The first rotating bracket 1222 and the second rotating bracket 1226 are both disposed in a plate shape, the rotation axis of the first rotating bracket 1222 and the rotation axis of the first abutting roller 123 are both perpendicular to the plate surface of the first rotating bracket 1222, and the rotation axis of the second rotating bracket 1226 and the rotation axis of the second abutting roller 124 are both perpendicular to the plate surface of the second rotating bracket 1226.

In other embodiments, the second rotating bracket 1226 of the tape applying structure 122 may not be rotatably connected to the first rotating bracket 1222, but directly rotatably connected to the supporting frame, and after the second driving member 1228 is connected to the second rotating bracket 1226, the second rotating bracket 1226 can also be driven to rotate, so as to drive the second abutting roller 124 to move along its own radial direction.

Specifically, the second driving member 1228 includes a fourth driving cylinder, one end of which is hinged to the supporting member 121, and the other end of which is hinged to the second rotating bracket 1226, so as to drive the second rotating bracket 1226 to rotate relative to the supporting member 121. The fourth driving cylinder may include any telescopic driving cylinder structure, such as a pneumatic cylinder, a hydraulic cylinder, an electric cylinder, and the like, which is not limited herein.

Alternatively, the first abutting roller 123 and the second abutting roller 124 may be made of an elastic material such as rubber, plastic, sponge, or the like, or the outer surface of the first abutting roller 123 is wrapped with an elastic material such as rubber, plastic, sponge, or the like, so that the first abutting roller 123 and the sidewall of the packing case 200 are elastically contacted. Meanwhile, the first abutting roller 123 can also generate static electricity, so that the smooth surface of the adhesive tape is adsorbed on the surface of the first abutting roller 123.

Optionally, as shown in fig. 3, the tape applying structure 122 further includes a tape cutting mechanism 125, and after the package box 200 is sealed by applying the tape, the tape can be cut by the tape cutting mechanism, so that the package box packaging apparatus 100 can seal the next package box 200 by applying the tape.

The tape cutting mechanism 125 includes a third driving mechanism 1251 and a cutter 1252 corresponding to a gap between the first abutting roller 123 and the second abutting roller 124, and the third driving mechanism 1251 is connected to the cutter 1252 to drive the cutter 1252 to extend and retract toward the gap between the first abutting roller 123 and the second abutting roller 124. After the adhesive tape sealing assembly 120 completes the adhesive tape sealing of the packaging box 200, the first abutting roller 123 can be driven by the first driving mechanism 1221 to be separated from the side wall of the packaging box 200, and then the adhesive tape between the first abutting roller 123 and the second abutting roller 124 can also keep a certain distance from the side wall of the packaging box 200, at this time, the third driving mechanism 1251 can drive the cutter 1252 to extend towards the gap between the first abutting roller 123 and the second abutting roller 124 so as to cut off the adhesive tape between the first abutting roller 123 and the second abutting roller 124, so that the adhesive tape close to the first abutting roller 123 is adsorbed on the surface of the first abutting roller 123, so that the first abutting roller 123 can preliminarily adhere the adhesive tape on the side wall of the next packaging box 200, and the adhesive tape close to the second abutting roller 124 can be pressed on the packaging box 200 by the second abutting roller 124.

Alternatively, the tape cutting mechanism 125 may be provided on the second rotating bracket 1226, and thus, the tape cutting mechanism may rotate together with the second rotating bracket 1226, so that the cutter 1252 of the tape cutting mechanism can always correspond to the gap between the first abutment roller 123 and the second abutment roller 124.

Specifically, the third driving mechanism 1251 may include a base frame 111 connected to the second rotating bracket 1226, and a third driving cylinder disposed on the base frame 111, wherein an expansion rod of the third driving cylinder is connected to the cutter 1252, and the third driving cylinder expands and contracts by controlling the expansion rod, i.e., the cutter 1252 is driven to expand and contract toward a gap between the first abutting roller 123 and the second abutting roller 124.

Of course, the tape cutting mechanism 125 may also be disposed on the supporting member 121, or disposed on another structure of the packaging box packaging apparatus 100, and only the cutter 1252 of the tape cutting mechanism 125 corresponds to the gap between the first abutting roller 123 and the second abutting roller 124, and the third driving mechanism 1251 can drive the cutter 1252 to extend and retract toward the gap between the first abutting roller 123 and the second abutting roller 124.

As shown in fig. 1 to 3, the adhesive tape applying assembly 120 includes an adhesive tape wheel 126 disposed on the supporting member 121, the adhesive tape wheel 126 is rotatably connected to the supporting member 121 and is disposed in parallel with the first abutment roller 123 at an interval, and the adhesive tape wheel 126 is used for mounting an adhesive tape roll and enabling the adhesive tape roll to rotate on the supporting member 121. The smooth surface of the tape end on the tape roll is adsorbed on the first abutting roller 123, and when the first abutting roller 123 abuts against the side wall of the packing box 200, the pasting surface of the tape end is pasted on the side wall of the packing box 200 and compacted by the second abutting roller 124. As the package 200 rotates relative to the taping module 120, the package 200 pulls on the tape ends, tearing more tape from the roll.

As shown in fig. 3, the adhesive tape beating assembly 120 may further include a power assisting mechanism 127 disposed on the support member 121, wherein the power assisting mechanism 127 includes a power roller 1271 spaced and juxtaposed with the first abutment roller 123, and a fourth driving mechanism 1272 connected to the power roller 1271 and driving the power roller 1271 to rotate, and the power roller 1271 is disposed between the first abutment roller 123 and the adhesive tape roller 126 and spaced and juxtaposed with the first abutment roller 123. Therefore, the end of the adhesive tape wound on the adhesive tape roll can firstly wind through the power roller 1271 and then is adsorbed on the surface of the first abutting roller 123, when the adhesive tape beating assembly 120 beats the adhesive tape on the packaging box 200, the fourth driving mechanism 1272 drives the power roller 1271 to rotate, so that the adhesive tape is actively torn off from the adhesive tape, the acting force applied to the packaging box 200 by the adhesive tape is reduced, and the phenomenon that the adhesive tape cannot be stably pressed on the side wall of the packaging box 200 by the second abutting roller 124 due to the overlarge acting force between the packaging box 200 and the adhesive tape is avoided.

The outer peripheral wall of the power roller 1271 can be further provided with a plurality of protrusions, when the end of the adhesive tape on the adhesive tape roll firstly winds through the power roller 1271, the adhering surface of the adhesive tape is contacted with the outer peripheral surface of the power roller 1271, therefore, the power roller 1271 is not easy to slip when acting force is applied to the adhesive tape, and the power roller 1271 is contacted with the adhering surface of the adhesive tape through the protrusions, so that the influence on the viscosity of the adhesive tape is small. The power roller 1271 may be made of metal material such as iron, aluminum, etc. to further reduce the influence of the power roller 1271 on the viscosity of the adhesive tape.

Specifically, the fourth driving mechanism 1272 of the power assisting mechanism 127 is a motor, the motor is disposed below the supporting member 121, a rotating shaft of the motor is parallel to a rotating axis of the first abutting roller 123, the power roller 1271 is coaxially connected to the rotating shaft of the motor, the two sides of the power roller 1271 are respectively provided with a guide roller 128, the guide rollers 128 and the power roller 1271 are arranged in parallel at intervals, the guide rollers 128 are rotatably connected to the supporting member 121, and when an end of an adhesive tape on an adhesive tape roll is wound around the power roller 1271 first, a smooth surface of the adhesive tape contacts with outer surfaces of the two guide rollers 128.

Optionally, as shown in fig. 3 and 4, the taping structure 122 further includes a tape stopper 129 disposed on the first rotating bracket 1222, the tape stopper 129 is located between the power roller 1271 and the first abutting roller 123, the tape stopper 129 includes a stopper groove 1293 extending along the rotation axis direction of the first abutting roller 123, and the stopper groove 1293 allows the tape between the power roller 1271 and the first abutting roller 123 to pass through to limit the tape, so as to avoid the problem of curling of two side edges of the tape.

Specifically, the tape limiting member 129 includes two U-shaped limiting portions 1292 which are limited relatively, and an intermediate connecting portion 1292 connected between the two U-shaped limiting portions 1292, the two U-shaped limiting portions 1292 are disposed along the rotation axis direction of the first abutting roller 123, a limiting slot 1293 is formed between the two U-shaped limiting portions 1292, and when the tape passes through the limiting slot 1293, two side edges of the tape are located in the grooves of the two U-shaped limiting portions 1292.

Optionally, as shown in fig. 3, the gluing belt structure 122 further includes an intermediate roller 130 spaced from and juxtaposed to the first abutting roller 123, the intermediate roller 130 is located on a side of the first abutting roller 123 facing away from the second abutting roller 124, and the intermediate roller 130 is rotatably connected to the first rotating bracket 1222. Therefore, the adhesive tape can be wound around the middle roller 130 and then connected with the first abutting roller 123, the middle roller 130 can guide the adhesive tape, and the smooth surface of the adhesive tape can be adsorbed on one side of the first abutting roller 123, which is used for abutting against the side wall of the packing box 200.

The tape stopper 129 may be rotatably connected to the first rotating bracket 1222, and an elastic member (not shown) is disposed on the first rotating bracket 1222 and abuts against the tape stopper 129 to apply an elastic force to the tape stopper 129, so that the tape stopper 129 rotates between the first abutting roller 123 and the middle roller 130.

It can be understood that, since the positions of the first abutting roller 123 and the intermediate roller 130 relative to the first rotating bracket 1222 are kept unchanged, the position between the first abutting roller 123 and the intermediate roller 130 is also kept basically unchanged during the rotation of the first rotating bracket 1222, and the tape limiting member 129 is rotated to the position between the first abutting roller 123 and the intermediate roller 130 by applying elasticity to the tape limiting member 129 through the elastic member, so that the tape limiting member 129 can better limit the tape, and the problem of curling of the two side edges of the tape can be further prevented. The elastic member may be a spring, a torsion spring, rubber, etc., and is not limited herein.

As shown in fig. 2 and 5, the supporting assembly 110 of the packing box packaging apparatus 100 may further include a lifting structure 116 and a driving structure 117, the lifting structure 116 includes a plurality of guide posts 1164 arranged in parallel at intervals, the plurality of guide posts 1164 extend along a rotation axis of the turntable 113, the plurality of guide posts 1164 are slidably connected with the base frame 111 along the rotation axis of the turntable 113, upper ends of the plurality of guide posts 1164 are connected with the supporting member 121 of the gluing belt assembly 120, and the driving structure 117 is connected with the lifting structure 116 to drive the lifting structure 116 to lift.

From this, when moving not packing box 200 of co-altitude to carousel 113 on, can drive lift structure 116 through drive structure 117 and go up and down to drive support piece 121 goes up and down, and then the height of adjusting the assembly 120 of gluing, the high adaptation of the height that makes the assembly 120 of gluing and packing box 200, thereby improves packing box packaging equipment 100's application scope.

Moreover, elevation structure 116 is through a plurality of guide posts 1164 and chassis 111 sliding connection, can make the connection between elevation structure 116 and the chassis 111 more stable, difficult relative chassis 111 produces and rocks to make the position of beating on elevation structure 116 glue the area of taking 120 stable, avoid beating glue the area of taking 120 and beating the sealed in-process of taking to glue the area of packing box 200, beat glue the area of taking 120 and produce and rock and lead to the sticky tape not in place, and then the sealed effect to packing box 200 is influenced.

Alternatively, as shown in fig. 5, a plurality of guide cylinders 112 are disposed on the bottom frame 111, the number of the guide cylinders 112 is equal to and corresponds to the number of the guide posts 1164, a guide hole extending along the rotation axis of the turntable 113 is formed in each guide cylinder 112, the guide hole formed in each guide cylinder 112 is matched with the corresponding guide post 1164 in shape, and the plurality of guide posts 1164 of the lifting structure 116 pass through the guide holes of the corresponding guide cylinders 112, so that the plurality of guide posts 1164 are slidably connected with the bottom frame 111. By providing a plurality of guide cylinders 112 on the bottom frame 111 and slidably fitting the corresponding guide posts 1164 in the plurality of guide cylinders 112, the connection between the plurality of guide posts 1164 of the lifting structure 116 and the bottom frame 111 can be more stable without shaking.

The shape of the guide hole in each guide cylinder 112 is matched with the shape of the corresponding guide post 1164, that is, the cross section of the guide hole in each guide cylinder 112 is the same as or similar to the shape of the cross section of the corresponding guide post 1164, so that after the plurality of guide posts 1164 of the lifting structure 116 pass through the corresponding guide holes of the guide cylinders 112, the inner wall of each guide hole can be matched with the outer peripheral surface of the corresponding guide post 1164, so that the guide posts 1164 are prevented from shaking in the corresponding guide holes. The cross-sectional shape of the guide hole and the guide post 1164 may be circular, rectangular, triangular, etc., but it is preferable to process the guide post 1164 and the guide cylinder 112 when the cross-sectional shape of the guide hole and the guide post 1164 is circular.

As shown in fig. 5, the driving mechanism 117 may include a lead screw 1171 juxtaposed to the plurality of guide posts 1164, a lead screw nut (not shown) threadedly coupled to the lead screw 1171, and a transmission mechanism 1172 coupled to the lead screw nut and driving the lead screw 1171 to rotate, wherein the lead screw nut is rotatably coupled to the base frame 111, and a top end of the lead screw 1171 is coupled to the support member 121. Therefore, acting force is applied to the transmission mechanism 1172 to drive the lead screw nut to rotate relative to the bottom frame 111, the lead screw nut drives the lead screw 1171 to lift, and the support 121 at the top end of the lead screw 1171 is driven to lift.

The transmission mechanism 1172 may include a handle 1175, and a first chain wheel 1173 and a second chain wheel 1174 connected by a chain 1176, the first chain wheel 1173 is disposed on the screw nut, the second chain wheel 1174 is rotatably connected to the chassis 111, and the handle 1175 is coaxially connected to the second chain wheel 1174. Therefore, the screw nut can be driven to rotate by rotating the handle 1175, and the screw 1171 is driven to ascend and descend.

Specifically, the top of the screw 1171 is rotatably connected with the support 121, the screw nut is coaxially disposed with the first sprocket 1173, the rotational axes of the second sprocket 1174 and the first sprocket 1173 are parallel, and the heights of the first sprocket 1173 and the second sprocket 1174 are the same, so that the first sprocket 1173 and the second sprocket 1174 are connected by a chain 1176. The handle 1175 and the second chain wheel 1174 are coaxially arranged, the handle 1175 is located above the bottom frame 111, the first chain wheel 1173 can be conveniently driven to rotate by manually rotating the handle 1175, the first chain wheel 1173 drives the second chain wheel 1174 and the lead screw nut to rotate through the chain 1176, and then the lead screw 1171 is driven to ascend or descend.

Of course, the lead screw nut can also be driven to rotate by the motor, so that the height adjustment of the gluing belt assembly 120 is more convenient.

Optionally, the plurality of guide posts 1164 may be distributed around the screw 1171, so that the acting force applied by the screw 1171 to the support 121 is located at or near the center of the plurality of guide posts 1164, thereby avoiding the problem that the guide posts 1164 are not smoothly slid in the guide holes due to uneven force applied to the plurality of guide posts 1164 when the screw 1171 drives the support 121 and the plurality of guide posts 1164 to slide up and down.

Optionally, as shown in fig. 5, the supporting member 121 is disposed in a plate shape, the rubberizing structure 122 is disposed on the upper surface of the supporting member 121, and the upper ends of the plurality of guiding studs 1164 are fixedly connected to the lower surface of the supporting member 121, so that the rubberizing structure 122 and the plurality of guiding studs 1164 are more stably and conveniently connected to the supporting member 121.

Optionally, the lifting structure 116 may further include a connection piece 1162, a plurality of guide posts 1164 are connected to the connection piece 1162, and the connection piece 1162 is located below the supporting member 121 and spaced apart from the supporting member 121. As a result, the plurality of guide posts 1164 are reinforced by the connecting members 1162, thereby improving the overall stability of the lifting structure 116.

Wherein, the bottom frame 111 may include a supporting plate 1111, a plurality of guiding posts 1164 are slidably connected to the supporting plate 1111 through the lower ends of the supporting plate 1111, and a connecting member 1162 is disposed below the supporting plate 1111 and connected to the lower ends of the plurality of guiding posts 1164, so that the connection between the connecting member 1162 and the plurality of guiding posts 1164 is facilitated. Of course, the connecting piece 1162 can be connected to the middle or other positions of the plurality of guide posts 1164.

Specifically, the number of the guide posts 1164 is four, and the guide posts 1164 are distributed in a matrix, the four guide posts 1164 are in a cylindrical structure, and the axial directions of the four guide posts 1164 are parallel to each other. The axial direction of the screw 1171 is parallel to the axial direction of the four guide posts 1164, and the upper end of the screw 1171 is rotatably connected with the lower surface of the support 121. The connecting piece 1162 is in a plate shape, the lower ends of the plurality of guide posts 1164 penetrate through the bottom frame 111 and are fixedly connected with the lower portion of the bottom frame 111 and the upper surface of the connecting piece 1162, and the lower end of the screw rod 1171 penetrates through the bottom frame 111 and is rotatably connected with the upper surface of the connecting piece 1162.

In other embodiments, the driving mechanism 117 may also include a fifth driving cylinder, which is disposed in parallel with the plurality of guide posts 1164, and an upper end of the fifth driving cylinder is connected to the supporting member 121, and a lower end of the fifth driving member is connected to the base frame 111, so that the supporting member 121 can be controlled to move up and down by controlling the fifth driving cylinder to extend and retract. The fifth driving cylinder may be an electric cylinder, a pneumatic cylinder, a hydraulic cylinder, and the like, which are not limited herein.

Optionally, as shown in fig. 2 and fig. 5, a locking structure 115 is further disposed on the base frame 111, the locking structure 115 corresponds to the position of the screw 1171, and the locking structure 115 is configured to be connected to the screw 1171 to lock the screw 1171. Therefore, after the adhesive tape beating assembly 120 is adjusted to a proper height by the lifting structure 116, the screw 1171 can be locked by the locking structure 115 to prevent the lifting structure 116 from moving up and down.

Specifically, the locking structure 115 may include a clamping member 1151 and a locking member 1154, the clamping member 1151 includes a first clamping portion, a second clamping portion and a locking member 1154, one end of the first clamping portion is connected to one end of the second clamping portion, the locking member 1154 is threadedly connected to the other end of the second clamping portion through the other end of the first clamping portion, and a distance between the other end of the first clamping portion and the other end of the second clamping portion may be adjusted by rotating the locking member 1154. The clamping piece 1151 is connected with the bottom frame 111, the first clamping portion and the second clamping portion of the clamping piece 1151 are distributed on two opposite sides of the screw 1171, when the screw 1171 needs to be locked, the distance between the first clamping portion and the second clamping portion is adjusted through the locking piece 1154 until the first clamping portion and the second clamping portion clamp the screw 1171, so that the screw 1171 is locked; when the screw 1171 needs to be unlocked, the distance between the first clamping part and the second clamping part is adjusted through the locking piece 1154, so that the screw 1171 can be loosened by the first clamping part and the second clamping part.

Optionally, as shown in fig. 1, the packing box packaging apparatus 100 further includes a first conveying assembly 131, the turntable 113 corresponds to an output end of the first conveying assembly 131, and a second conveying assembly 132 corresponding to the first conveying assembly 131 is disposed on the turntable 113. Therefore, the work efficiency of the packing box 200 packing equipment can be improved by transferring the packing box 200 to the second transferring assembly 132 of the turntable 113 through the first transferring assembly 131.

Optionally, the packing case enclosing apparatus 100 further comprises a platen assembly 133 coupled to the base frame 111, the platen assembly 133 comprising a platen 134 positioned above the turntable 113, and a fifth driving mechanism 135 coupled to the platen 134 and driving the platen 134 to move along the rotational axis of the turntable 113, the rotational axis of the platen 134 being coaxial with the rotational axis of the turntable 113. After the packing box 200 moves onto the rotating disc 113, the fifth mechanism can drive the rotating disc 113 to approach the pressing disc 134 until the pressing disc 134 is pressed on the upper surface of the packing box 200, so as to position the box cover of the packing box 200 and prevent the box cover from falling off from the box body.

Alternatively, as shown in fig. 1 and 2, the packing box positioning structure 114 includes two clamping plates 1141 located above the second conveying assembly 132, and a sixth driving mechanism (not shown in the drawings) connected to the two clamping plates 1141 and driving the two clamping plates 1141 to move close to or away from each other, the two clamping plates 1141 are sequentially distributed in the width direction of the second conveying assembly 132, and the two clamping plates 1141 extend along the length direction of the second conveying assembly 132, so as to position the packing box 200 through the packing box positioning structure 114, prevent the packing box 200 from moving relative to the turntable 113, and thus stably adhere the adhesive tape to the side wall of the packing box 200. After the package 200 is moved onto the second conveying assembly 132, the sixth driving mechanism drives the two clamping plates 1141 to approach each other, so that the two clamping plates 1141 clamp the package 200, thereby positioning the package 200. When the location of the packing box needs to be released, only the two clamping plates 1114 need to be driven by the sixth driving mechanism to be away from each other.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

The above detailed descriptions of the gluing belt assembly and the packaging box packaging equipment provided by the embodiments of the present application are provided, and specific examples are applied in the description to explain the principle and the implementation of the present application, and the descriptions of the above embodiments are only used to help understand the technical scheme and the core idea of the present application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims (12)

1. The packing box packaging equipment is characterized by comprising:

the adhesive tape beating assembly comprises a support piece and an adhesive tape beating structure arranged on the support piece;

the supporting assembly comprises a bottom frame, a lifting structure and a driving structure, wherein a turntable is arranged on the bottom frame, and the turntable is positioned below the gluing belt structure; the lifting structure comprises a plurality of guide posts which are arranged at intervals in parallel, the guide posts extend along the rotation axis of the turntable, the guide posts are connected with the base frame in a sliding manner along the rotation axis of the turntable, and the upper ends of the guide posts are connected with the supporting piece; the driving structure is connected with the lifting structure to drive the lifting structure to lift.

2. The packaging box packaging apparatus as claimed in claim 1, wherein a plurality of guide cylinders are provided on the bottom frame, the number of the guide cylinders is equal to the number of the guide posts and corresponds to one of the guide posts, each guide cylinder has a guide hole therein extending along the rotation axis of the turntable, the guide hole in each guide cylinder is fitted to the corresponding guide post, and the guide posts penetrate through the guide holes of the corresponding guide cylinders to slidably connect the guide posts with the bottom frame.

3. The packaging box packaging equipment according to claim 2, wherein the driving structure comprises a screw rod juxtaposed with the plurality of guide posts, a screw nut in threaded connection with the screw rod, and a transmission mechanism connected with the screw nut and driving the screw rod to rotate, the screw nut is rotatably connected with the bottom frame, and the top end of the screw rod is connected with the support member.

4. A container enclosing apparatus according to claim 3, wherein said plurality of guide posts are distributed around said screw.

5. The carton packaging apparatus according to claim 3, wherein the transmission mechanism comprises a handle, and a first chain wheel and a second chain wheel connected by a chain, the first chain wheel is arranged on the screw nut, the second chain wheel is rotatably connected with the bottom frame, and the handle is coaxially connected with the second chain wheel.

6. The packaging box packaging equipment according to claim 3, wherein a locking structure is further arranged on the bottom frame, the locking structure corresponds to the screw rod in position, and the locking structure is used for being connected with the screw rod so as to lock the screw rod.

7. The container packaging apparatus of claim 1, wherein the elevating structure further comprises a connecting member, the plurality of guide posts being connected to the connecting member, the connecting member being located below the supporting member and spaced apart from the supporting member.

8. The apparatus of claim 7, wherein the base frame includes a support plate through which the lower ends of the plurality of guide posts pass and are slidably coupled to the support plate, and the coupling member is positioned below the support plate and coupled to the lower ends of the plurality of guide posts.

9. The packing case enclosing apparatus according to any one of claims 1 to 8, wherein the supporting member is provided in a plate shape, the taping structure is provided on an upper surface of the supporting member, and upper ends of the plurality of guiding posts are fixedly connected to a lower surface of the supporting member.

10. The packaging box packaging equipment according to any one of claims 1 to 8, wherein the gluing belt structure comprises a first driving mechanism, a second driving mechanism, a first abutting roller and a second abutting roller which are arranged in parallel at intervals, the first driving mechanism is rotatably connected with the first abutting roller and drives the first abutting roller to move along the radial direction of the first abutting roller; the second driving mechanism is rotatably connected with the second abutting roller and drives the second abutting roller to move along the radial direction of the second abutting roller.

11. The carton packaging apparatus of claim 10, wherein said adhesive applying assembly includes a tape wheel rotatably connected to said support member, said tape wheel being spaced from and juxtaposed to said first abutment roller.

12. The carton packaging apparatus according to claim 10, further comprising a turntable rotatably coupled to said base, said first abutment roller and said second abutment roller being positioned above said turntable, said carton packaging apparatus further comprising a platen assembly coupled to said support, said platen assembly comprising a platen positioned above said turntable, and a fifth drive mechanism coupled to said platen and driving said platen to move along a rotational axis of said turntable, said rotational axis of said platen being coaxial with said rotational axis of said turntable.

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