CN117962329A - Bed net bonding equipment, bed net bonding method and bed net - Google Patents

Abstract

The application discloses bed net bonding equipment, a bed net bonding method and a bed net, wherein the bed net bonding equipment comprises a conveying platform, a feeding mechanism and a bonding mechanism, at least one side of the conveying platform is provided with the feeding mechanism, the feeding mechanism transfers a shaping material from a first position to a second position, the feeding mechanism comprises a material taking assembly, a material taking lifting assembly and a first driving assembly, the material taking lifting assembly comprises a first lifting driving assembly and a third mounting plate, the first lifting driving assembly drives the third mounting plate to lift, and the material taking assembly is connected with the third mounting plate; at least one side of the conveying platform is provided with an adhesive mechanism, the adhesive mechanism comprises an adhesive spraying assembly, and the adhesive spraying assembly moves longitudinally and sprays adhesive on a shaping material and/or sprays adhesive on the side edge of the bed net; the first driving assembly is respectively connected with the third mounting plate and the material taking assembly to drive the material taking assembly to move relative to the third mounting plate so as to adjust the position of the material taking assembly, and the end parts of the front shaping material and the rear shaping material are in butt joint.

Description

Bed net bonding equipment, bed net bonding method and bed net

Technical Field

The application relates to the technical field of bed net manufacturing, in particular to bed net bonding equipment, a bed net bonding method and a bed net.

Background

For the comfort, the bed net inside the mattress is often set in a partitioned manner, or for improving the stability of the bed net, a shaping material with higher hardness, such as a sponge strip with higher hardness, is adhered to the periphery. At present, high-hardness spring strings (generally smaller than the waist diameter of a spring of a bed net inner core) or sponge are adhered around the bed net, but for the bed net which is provided with upper and lower cloth and is cut after continuous combination, a shaping material (spring strings or sponge strips) is synchronously adhered to the side surface of the bed net between the upper and lower cloth while the bed net is combined, and no better automatic scheme exists.

Disclosure of Invention

In order to solve at least one of the above technical problems, the present application provides a bed net bonding apparatus, a bed net bonding method and a bed net, and the following technical schemes are adopted.

The bed net provided by the application is manufactured by adopting bed net bonding equipment.

The bed net bonding equipment provided by the application comprises a conveying platform, a feeding mechanism and a bonding mechanism, wherein the conveying platform is used for conveying the bed net longitudinally; the feeding mechanism is used for grabbing the shaping materials and transferring the shaping materials from a first position to a second position close to the side edge of the bed net, the feeding mechanism comprises a material taking assembly and a material taking lifting assembly, the material taking assembly extends longitudinally, the material taking assembly is used for grabbing and releasing the shaping materials, the material taking lifting assembly comprises a first lifting driving assembly and a third mounting plate, the first lifting driving assembly drives the third mounting plate to lift, and the material taking assembly is connected with the third mounting plate; the adhesive spraying assembly can move longitudinally and spray adhesive on the shaping material and/or spray adhesive on the side edge of the bed net; the feeding mechanism further comprises a first driving assembly, the first driving assembly is respectively connected with the third mounting plate and the material taking assembly, the first driving assembly drives the material taking assembly to longitudinally move relative to the third mounting plate so as to adjust the position of the material taking assembly, and the ends of the front shaping material and the rear shaping material are in butt joint.

In some embodiments of the present application, the feeding mechanism includes a first mounting plate, the material taking lifting assembly includes a second lifting driving assembly and a second mounting plate, the first lifting driving assembly is disposed on the first mounting plate, the first lifting driving assembly is connected to the second mounting plate and drives the second mounting plate to lift, the second lifting driving assembly is disposed on the second mounting plate, and the second lifting driving assembly is connected to the material taking assembly and can drive the material taking assembly to lift.

In some embodiments of the present disclosure, the feeding mechanism includes a first lifting guide assembly, where the first lifting guide assembly includes a first guide cylinder, a second guide cylinder, and a first lifting guide rod, where the first lifting guide rod is connected to the material taking assembly, the second guide cylinder is disposed on the second mounting plate, the second guide cylinder is sleeved on the first lifting guide rod, and the first guide cylinder is disposed on the first mounting plate, and the first guide cylinder is sleeved on the second guide cylinder.

In some embodiments of the present disclosure, the feeding mechanism includes a first positioning structure, where the first positioning structure includes a first positioning pressing plate and a first positioning driver, where the first positioning driver is connected to the first positioning pressing plate to drive the first positioning pressing plate to lift, and the first positioning pressing plate is used to abut against an upper side surface of the released shaping material and a previous shaping material, so that the upper side surfaces are flush when the two shaping materials are butted.

In some embodiments of the application, the feeding mechanism comprises a baffle assembly, the baffle assembly is arranged on the material taking assembly, the baffle assembly comprises a baffle driver and a baffle plate, and the baffle driver is connected with the baffle plate and can drive the baffle plate to descend to the side surface of the gripped shaping material so as to separate the shaping material from the bed net.

In some embodiments of the present application, the bed net bonding apparatus includes a positioning mechanism, where the positioning mechanism is disposed between the first position and the second position, and the positioning mechanism is used to adjust a position of the sizing material to be transferred by the feeding mechanism; and the feeding mechanism releases the shaping material into the alignment mechanism in the process of transferring the shaping material from the first position to the second position, and the feeding mechanism snacks the shaping material again and transfers the shaping material to the second position after the alignment mechanism finishes alignment.

In some embodiments of the present disclosure, the alignment mechanism includes a first alignment assembly and a second alignment assembly, where the first alignment assembly includes a first alignment movable plate and a first alignment fixed plate, the first alignment movable plate and the first alignment fixed plate extend longitudinally and are oppositely disposed, the second alignment assembly includes a second alignment movable plate and a second alignment fixed plate, the second alignment movable plate and the second alignment fixed plate extend transversely and are oppositely disposed, the first alignment movable plate, the first alignment fixed plate, the second alignment movable plate and the second alignment fixed plate form an alignment area, the shaping material is disposed on the alignment area, the first alignment movable plate and the first alignment fixed plate are respectively abutted to sides of the shaping material, and the second alignment movable plate and the second alignment fixed plate are respectively abutted to ends of the shaping material.

In some embodiments of the present application, the material taking assembly includes at least one pin assembly, the pin assembly includes a pin driver and at least two pins with different directions, the pin driver drives the pins to insert into or withdraw from the setting material, and the material taking assembly grabs the setting material through the pins inserted into the setting material.

In some embodiments of the present application, the bonding mechanism includes a first pressing component, where the first pressing component includes a first pressing structure, the first pressing structure extends in a longitudinal direction, and the first pressing structure can move in a lateral direction, and the first pressing structure is used to abut against an outer side surface of the shaping material and bond the shaping material to a side edge of the bed net.

In some embodiments of the present application, the bonding mechanism includes a second pressing assembly, the second pressing assembly includes a second pressing plate, the second pressing plate can move along a lateral direction, and the second pressing plate is used for simultaneously abutting against the outer side surfaces of the released shaping material and the previous shaping material, so that the outer side surfaces are flush when the two shaping materials are abutted.

In some embodiments of the present application, the bed net bonding device comprises a cloth lifting mechanism, at least one of two sides of the conveying platform is provided with the cloth lifting mechanism, and the cloth lifting mechanism is used for lifting and maintaining the upper layer cloth of the bed net in a lifted state.

In certain embodiments of the application, the cloth lifting mechanism comprises a flap assembly comprising a longitudinally extending flap rotatable about an axis parallel to the longitudinal direction to uncover the upper layer of the bed net, and the flap is capable of being held in a rotated tilted position.

In some embodiments of the application, the flap assembly can be lifted to accommodate different thicknesses of bed nets and/or the flap assembly can be moved in a lateral direction to accommodate different widths of bed nets.

The bed net bonding method provided by the application is implemented by adopting bed net bonding equipment, and the bed net bonding equipment also comprises a cloth lifting mechanism; the bed net bonding method comprises the following working procedures:

the conveying platform conveys the continuous bed net, and the cloth lifting mechanism lifts and maintains the upper layer cloth of the bed net in a lifted state;

the feeding mechanism transversely moves to a first position and grabs the shaping material;

the feeding mechanism moves from a first position to a second position along the transverse direction;

The glue spraying assembly moves longitudinally and sprays adhesive on the side edge of the bed net and/or the side surface of the shaping material facing the bed net;

the feeding mechanism releases a shaping material, and the shaping material is adhered to the side edge of the bed net;

Wherein the end of the shaping material abuts the end of the previous shaping material.

In some embodiments of the present application, the glue spraying component moves from the downstream to the upstream of the conveying platform, sprays the required adhesive for adhering the shaping material to the side of the bed net, moves reversely to the set position of the downstream of the conveying platform, sprays the adhesive to the upper side surface of the shaping material and/or the inner side surface of the upper layer cloth after moving to the set position, and sprays the adhesive according to the set frequency or continuously sprays the adhesive.

The embodiment of the application has at least the following beneficial effects: the continuous bed net is conveyed by the conveying platform to pass through the second position, the sizing material is transferred to the second position by the feeding mechanism, the adhesive required for bonding the sizing material and the bed net is provided by the adhesive spraying assembly, and the sizing material is sequentially stuck to the side edge of the bed net one by the feeding mechanism along with the gradual conveying of the bed net, so that automatic production is realized; and at the second position, the take-out assembly is capable of moving longitudinally to an adjustment position such that the setting material is in abutment with an end of a previous setting material. The application can be widely applied to the technical field of bed net manufacturing.

Drawings

The described and/or additional aspects and advantages of embodiments of the present application will become apparent and readily appreciated from the following description taken in conjunction with the accompanying drawings. It should be noted that the embodiments shown in the drawings below are exemplary only and are not to be construed as limiting the application.

Fig. 1 is a schematic structure diagram of a bed net bonding device, wherein a feeding mechanism, a bonding mechanism, a contraposition mechanism, a cloth lifting mechanism and a feeding mechanism are arranged at one side edge of a conveying platform.

Fig. 2 is a schematic structural diagram of a bed net bonding device, wherein both side edges of a conveying platform are provided with a feeding mechanism, a bonding mechanism, a counterpoint mechanism, a cloth lifting mechanism and a feeding mechanism.

Fig. 3 is a structural diagram of the feeding mechanism and the feeding mechanism.

Fig. 4 is a structural view of the feeding mechanism.

Fig. 5 is a structural view of the alignment mechanism.

Fig. 6 is a structural view of the bonding mechanism.

Fig. 7 is a block diagram of the flap assembly.

Fig. 8 is a block diagram of the take-off assembly releasing the setting material in a second position.

Fig. 9 is a structural view of the cloth lifting mechanism when the upper face is lifted.

Reference numerals: 1000. a conveying platform; 2000. a feeding mechanism; 2100. a material taking assembly; 2201. a first mounting plate; 2202. a second mounting plate; 2203. a third mounting plate; 2301. a first guide cylinder; 2302. a second guide cylinder; 2303. a first lifting guide rod; 2401. a first positioning press plate; 2402. a first positioning driver; 2500. a first drive assembly; 2601. a partition plate; 2602. a barrier driver; 2701. a first lifting driver; 2801. a second lifting driver; 3000. an alignment mechanism; 3101. a first alignment movable plate; 3102. a first alignment fixing plate; 3103. a first alignment driver; 3201. a second alignment movable plate; 3202. a second alignment fixing plate; 3203. a second alignment driver; 4000. an adhesive mechanism; 4100. a glue spraying assembly; 4101. a glue distribution driver; 4201. a first press-fit structure; 4301. a second pressing plate; 4302. a second press-fit driver; 4400. an adhesive mounting frame; 5000. a cloth lifting mechanism; 5100. a flap assembly; 5101. turning plate; 5102. a flap driver; 5200. a cloth lifting mounting frame; 5301. a third lifting driver; 5302. a third lifting guide rod; 5303. a third lifting mounting frame; 6000. and a feeding mechanism.

Detailed Description

Embodiments of the present application are described in detail below with reference to fig. 1 through 9, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the application.

In the description of the present application, it should be understood that, if the terms "center", "middle", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. are used as directions or positional relationships based on the directions shown in the drawings, the directions are merely for convenience of description and for simplification of description, and do not indicate or imply that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present application. Features defining "first", "second" are used to distinguish feature names from special meanings, and furthermore, features defining "first", "second" may explicitly or implicitly include one or more such features. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

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

The application relates to a mattress, which comprises a bed net.

Specifically, the side of the middle bed net of the mattress is provided with a shaping material. Or the bed nets in the mattress are arranged in a partitioning way, and the side edges of the partitioned bed nets are provided with shaping materials.

The application relates to a bed net, which is made of bed net bonding equipment, wherein the bed net bonding equipment is used for sticking and arranging a shaping material on the side edge of the bed net.

The shaping material is a sponge strip or a spring string.

Other constructions and operations of the bed net are well known to those skilled in the art and will not be described in detail herein, the construction of the bed net bonding apparatus will be described below.

The application relates to a bed net bonding device, which is matched with a bed net combination device, combines a spring string into a bed net, and bonds a shaping material on the side edge of the bed net at the same time, thereby improving the production efficiency and saving the production cost.

Referring to fig. 1 and 2, the bed net bonding apparatus includes a conveying platform 1000, a feeding mechanism 2000 and a bonding mechanism 4000, the conveying platform 1000 conveys the bed net longitudinally, the feeding mechanism 2000 and the bonding mechanism 4000 are both disposed on the side edge of the conveying platform 1000, the feeding mechanism 2000 is used for grabbing the shaping material, the feeding mechanism 2000 can transfer the shaping material from a first position to a second position close to the side edge of the bed net, the feeding mechanism 2000 releases the shaping material at the second position, and the bonding mechanism 4000 provides an adhesive for the shaping material to adhere to the side edge of the bed net.

The direction of conveying the bed net on the conveying platform 1000 is longitudinal, the direction perpendicular to the longitudinal direction is transverse, the shaping material is adhered to the side surface of the side edge of the bed net along the longitudinal direction, and the adhered shaping material extends along the longitudinal direction.

Referring to fig. 6, the bonding mechanism 4000 includes a glue spraying assembly 4100, wherein the glue spraying assembly 4100 is capable of moving in a longitudinal direction and spraying adhesive on the side edge of the bed net, and the distance that the glue spraying assembly 4100 moves in the longitudinal direction is at least equal to the length of the setting material to be adhered. Further, the glue spray assembly 4100 is capable of reciprocating in the longitudinal direction.

It is understood that the bonding mechanism 4000 includes a glue dispensing driving assembly connected to the glue spraying assembly 4100 to drive the glue spraying assembly 4100 to reciprocate longitudinally. Specifically, the glue spreading driving assembly includes a glue spreading driver 4101 and a glue spreading driving assembly, the glue spreading driver 4101 is connected to the glue spreading driving assembly to drive the glue spreading driving assembly to operate, and the glue spreading driving assembly is connected to the glue spraying assembly 4100 to drive the glue spraying assembly 4100 to move.

In some examples, the glue dispensing driver 4101 comprises a motor, and the glue dispensing drive assembly comprises a pulley and a drive belt that moves the glue dispensing assembly 4100 back and forth. Referring to fig. 6, the adhesive mechanism 4000 includes an adhesive mounting frame 4400, and an adhesive dispensing driver 4101 and an adhesive dispensing transmission assembly are disposed on the adhesive mounting frame 4400.

As an alternative, the glue distribution transmission assembly can be designed at least alternatively as follows: the glue distribution transmission assembly drives the glue spraying assembly 4100 to move in a gear-rack meshing transmission mode; or the glue distribution transmission assembly drives the glue spraying assembly 4100 to move by a ball screw pair.

In some embodiments, the glue spray assembly 4100 includes glue nozzles, at least one of which is disposed toward the side of the bed net, the glue nozzles being arranged with glue on the side of the bed net in a glue spray manner, the glue being glue. Or the equivalent replacement of the glue spray assembly 4100 is: the glue nozzle is used for arranging the adhesive on the side edge of the bed net in a gluing mode.

Regarding the spray adhesive assembly 4100 spray adhesive, there are at least the following alternative examples: in some examples, the glue spray assembly 4100 sprays adhesive on the sizing material, specifically, the glue nozzle is directed toward the inside of the sizing material. In other examples, the glue spray assembly 4100 sprays adhesive and sizing material, and the glue spray assembly 4100 sprays adhesive on the side of the bed mesh, in which case the glue spray assembly 4100 has a glue nozzle facing the inside of the sizing material and a glue nozzle facing the side of the bed mesh.

In some embodiments, the bonding mechanism 4000 includes a first pressing component, the first pressing component is used to abut against an outer side surface of the shaping material, and the first pressing component applies a pushing force to the shaping material so as to bond the shaping material to a side edge of the bed net.

Referring to fig. 6, the first press assembly includes a first press structure 4201, the first press structure 4201 extends along a longitudinal direction, and the first press structure 4201 is configured to abut against an outer side surface of the shaping material and adhere the shaping material to a side edge of the bed net. Further, the first press structure 4201 is capable of moving in a lateral direction such that the first press structure 4201 is capable of applying a pushing force to the setting material.

It will be appreciated that the first press assembly includes a first press driver disposed on the adhesive mounting frame 4400, the first press driver including a motor or a cylinder, the first press driver being coupled to the first press structure 4201 to drive the first press structure 4201 to move in a lateral direction.

Referring to fig. 6, the first pressing structure 4201 is provided with rollers or drums, which are used to abut against the outer side surface of the shaping material, so that rolling friction is generated when the first pressing structure 4201 abuts against the outer side surface of the shaping material, and resistance of the bed net during conveying on the conveying platform is reduced.

In some embodiments, the bonding mechanism 4000 includes a second pressing assembly, where the second pressing assembly and the first pressing assembly are sequentially arranged along a longitudinal direction, the second pressing assembly is used to simultaneously abut against the outer side surfaces of the released setting material and the previous setting material, and the second pressing assembly simultaneously applies a pushing force to the two setting materials, so that the outer side surfaces are flush when the two setting materials are abutted.

Referring to fig. 6, the second pressing assembly includes a second pressing plate 4301, where the second pressing plate 4301 is capable of moving in a lateral direction, and the second pressing plate 4301 is used to simultaneously abut against an outer side surface of the released setting material and an outer side surface of a previous setting material, so that the outer side surfaces are flush when the two setting materials are butted. On the other hand, the second press plate 4301 can ensure that the end of the setting material is attached to the side of the bed net.

It will be appreciated that the second press assembly includes a second press driver 4302, and referring to fig. 6 and 8, the second press driver 4302 is disposed on the adhesive mounting frame 4400, the second press driver 4302 includes a motor or a cylinder, and the second press driver 4302 is connected to the second press plate 4301 to drive the second press plate 4301 to move in a lateral direction.

It should be noted that, the glue spraying assembly 4100 can also spray adhesive to the end of the previous setting material, so that the butt joint of two adjacent setting materials is adhered.

As an embodiment, referring to fig. 1 and fig. 2, the bed net bonding apparatus includes a cloth lifting mechanism 5000, where the cloth lifting mechanism 5000 is disposed on a side of the conveying platform 1000, and the cloth lifting mechanism 5000 is used to uncover an upper layer cloth of the bed net so that the setting material is adhered to the side of the bed net. Further, considering that the bed net conveyed by the conveying platform 1000 is a continuous bed net, the lifting mechanism 5000 is kept in the lifted state after the upper layer cloth is lifted, so that the lifting mechanism 5000 is prevented from repeatedly lifting the upper layer cloth.

Further, the glue spraying assembly 4100 sprays adhesive to the upper side of the sizing material and/or the inner side of the upper layer cloth to adhere the upper layer cloth to the upper side of the sizing material. The bed net bonding device is provided with a pressing plate or a roller at the downstream, and the pressing plate or the roller applies pressure to the upper layer cloth so as to adhere the upper layer cloth to the upper side surface of the shaping material.

Referring to fig. 7, the cloth lifting mechanism 5000 includes a flap assembly 5100, and the flap assembly 5100 is used for uncovering the upper layer cloth. Further, the flap assembly 5100 can be lifted to accommodate different thicknesses of bed nets. Specifically, the cloth lifting mechanism 5000 includes a cloth lifting mounting frame 5200 and a third lifting driving assembly disposed on the cloth lifting mounting frame 5200. Further, the third lifting driving assembly includes a third lifting driver 5301 and a third lifting transmission assembly, the third lifting driver 5301 and the third lifting transmission assembly are both disposed on the lifting cloth mounting frame 5200, the third lifting driver 5301 is connected to the third lifting transmission assembly and drives the third lifting transmission assembly to operate, and the third lifting transmission assembly is connected to the flap assembly 5100 and drives the flap assembly 5100 to lift.

In some examples, the third lifting driver 5301 includes a motor, and the third lifting transmission assembly drives the flap assembly 5100 to lift in a rack-and-pinion manner. Further, the third elevation drive assembly includes a third elevation guide rod 5302 to guide the flap assembly 5100 to be smoothly elevated. Further, the third lifting transmission assemblies are arranged at least two along the longitudinal interval, the rotating shafts of the third lifting drivers 5301 simultaneously drive the gears of the third lifting transmission assemblies to rotate through the linkage rods, the third lifting driving assemblies comprise third lifting installation frames 5303, the third lifting transmission assemblies are connected with the third lifting installation frames 5303, and the flap assemblies 5100 are arranged on the third lifting installation frames 5303.

As an alternative to the third lifting drive assembly, it is also possible to design at least: the third lifting transmission assembly drives the flap assembly 5100 to lift in a belt transmission manner; or the third lifting transmission assembly drives the flap assembly 5100 to lift in a ball screw pair mode.

As one embodiment, and with reference to fig. 7, flap assembly 5100 includes a longitudinally extending flap 5101, flap 5101 being rotatable about an axis parallel to the longitudinal direction to uncover an upper layer of the bed net, and flap 5101 being capable of being maintained in a rotated tilted position to maintain cloth lifting mechanism 5000 in a state of uncovering the upper layer.

Referring to fig. 7, the flap assembly 5100 further includes a flap driver 5102, the flap driver 5102 is disposed on the third lifting mounting frame 5303, the flap driver 5102 has a telescopic end, and the telescopic end of the flap driver 5102 is hinged to the flap 5101, the flap 5101 is hinged to the third lifting mounting frame 5303. In this case, the flap driver 5102 drives the flap 5101 to turn over so that the flap 5101 is inserted between the upper cloth and the bed net and can uncover the upper cloth.

As an embodiment, the flap assembly 5100 can move laterally to accommodate bed nets of different widths, specifically, the cloth lifting mechanism 5000 includes a cloth lifting mounting frame 5200 and a third translation driving assembly, the third translation driving assembly is connected to the cloth lifting mounting frame 5200 and can drive the cloth lifting mounting frame 5200 to move laterally, so as to drive the flap assembly 5100 to move laterally.

The third translational drive assembly drives the flap assembly 5100 in a belt drive or rack and pinion drive or roller screw pair drive to move in a lateral direction.

It should be noted that, the cloth lifting mechanism 5000 may be further designed to: the flap assembly 5100 can be lifted to accommodate different thickness bed nets, and the flap assembly 5100 can be moved laterally to accommodate different width bed nets.

As an embodiment, referring to fig. 3, the bed net bonding apparatus includes a feeding mechanism 6000, the setting material is stored in the feeding mechanism 6000, and the feeding mechanism 2000 grabs the setting material from the feeding mechanism 6000. Referring to fig. 3, in the feeding mechanism 6000, a plurality of setting materials are stacked, and the length direction of the setting materials is longitudinally aligned.

Specifically, feeding mechanism 6000 includes feeding mounting bracket, charging tray and feed lifting unit, and feed lifting unit sets up in the feeding mounting bracket, and feed lifting unit connects the charging tray and can drive the charging tray and lift, snatchs the design material in the charging tray along with feeding mechanism 2000 is stepwise, and the height of charging tray is promoted correspondingly to the feed lifting unit.

Further, the feeding lifting assembly drives the tray to lift by a belt drive, a chain drive, a rack and pinion drive, a cylinder or a hydraulic cylinder.

As an embodiment, referring to fig. 1 and fig. 2, the bed net bonding apparatus includes a positioning mechanism 3000, where the positioning mechanism 3000 is disposed between a first position and a second position, and the positioning mechanism 3000 is used for adjusting a position of a sizing material to be transferred by the feeding mechanism 2000, so as to improve a matching degree between the position of the sizing material grasped and transferred by the feeding mechanism 2000 and the bed net.

In the process of transferring the shaping material from the first position to the second position, the feeding mechanism 2000 releases the shaping material into the aligning mechanism 3000, and after the aligning mechanism 3000 adjusts the position of the shaping material, the feeding mechanism 2000 grabs the shaping material again and transfers the shaping material to the second position.

Specifically, the alignment mechanism 3000 includes a first alignment member that adjusts the position of the setting material in the lateral direction, and a second alignment member that adjusts the position of the setting material in the longitudinal direction.

Referring to fig. 5, the first alignment assembly includes a first alignment movable plate 3101 and a first alignment fixed plate 3102, the first alignment movable plate 3101 and the first alignment fixed plate 3102 extend in a longitudinal direction, and the first alignment movable plate 3101 and the first alignment fixed plate 3102 are disposed opposite to each other. The first alignment movable plate 3101 can move in the lateral direction, so that the first alignment movable plate 3101 pushes the setting material toward the first alignment fixed plate 3102 until the first alignment movable plate 3101 and the first alignment fixed plate 3102 are respectively abutted against the side surfaces of the setting material. At this time, the alignment mechanism 3000 completes the adjustment of the position of the setting material in the lateral direction.

It will be appreciated that the first alignment assembly includes a first alignment drive 3103, the first alignment drive 3103 including a motor or cylinder, the first alignment drive 3103 being coupled to the first alignment movable plate 3101 to drive the movement of the first alignment movable plate 3101.

Referring to fig. 5, the second alignment assembly includes a second alignment movable plate 3201 and a second alignment fixed plate 3202, the second alignment movable plate 3201 and the second alignment fixed plate 3202 extend along a transverse direction, and the second alignment movable plate 3201 and the second alignment fixed plate 3202 are oppositely arranged. The second alignment movable plate 3201 can move along the longitudinal direction, so that the second alignment movable plate 3201 pushes the shaping material to the second alignment fixed plate 3202 until the second alignment movable plate 3201 and the second alignment fixed plate 3202 are respectively abutted to the end portions of the shaping material. At this time, the alignment mechanism 3000 completes the adjustment of the position of the setting material in the longitudinal direction.

It is understood that the second alignment assembly includes a second alignment driver 3203, the second alignment driver 3203 includes a motor or a cylinder, and the second alignment driver 3203 is connected to the second alignment movable plate 3201 to drive the second alignment movable plate 3201 to move.

Referring to fig. 5, the first alignment movable plate 3101, the first alignment fixed plate 3102, the second alignment movable plate 3201 and the second alignment fixed plate 3202 form an alignment area, the shaping material is disposed in the alignment area, and the alignment area is a rectangular cavity corresponding to the rectangular shape of the shaping material. Further, the alignment mechanism 3000 includes an alignment base, which is a bottom of the alignment region, where the first alignment fixing plate 3102 and the second alignment fixing plate 3202 are both disposed on the alignment base, and the first alignment movable plate 3101 and the second alignment movable plate 3201 are movably disposed on the alignment base.

Based on the above description of the bed net bonding apparatus, the following description will be given of the structure of the feeding mechanism 2000.

The application relates to a feeding mechanism 2000, after a bed net is conveyed to a position to be pasted by a conveying platform 1000, the feeding mechanism 2000 transfers a shaping material to a second position so that the shaping material is pasted on the side edge of the bed net, and the feeding mechanism 2000 can grasp and release the shaping material.

It will be appreciated that, with reference to fig. 3, the loading mechanism 2000 includes a take-out assembly 2100, the take-out assembly 2100 extending longitudinally, the take-out assembly 2100 being adapted to grasp and release a modeling material. Specifically, the take-out assembly 2100 includes at least one pin assembly, and further, in the case where at least two pin assemblies are provided, each pin assembly is longitudinally spaced apart.

Referring to fig. 4, the pin assembly includes a pin driver and at least two pins having different directions, the pins are connected to the pin driver, the pin driver drives the pins to stretch and retract, and the pins are inserted into an upper side or an outer side of the molding material. The pin driver drives the pins to insert into or withdraw from the modeling material, and the take-out assembly 2100 grabs the modeling material through the pins inserted into the modeling material.

The contact pin assembly is inserted into the shaping material by contact pins in different directions, so that the holding power for the shaping material is formed between the contact pins in different directions. The directions of the different pins refer to the directions of inserting the pins into the shaping material, and the directions of obliquely inserting the different pins are different, so that the inserting directions with different included angles are formed.

In one embodiment, the loading mechanism 2000 includes a material taking lifting assembly, where the material taking lifting assembly is connected to the material taking assembly 2100 and can drive the material taking assembly 2100 to lift, so that the material taking assembly 2100 drives the gripped sizing material to move up and down.

The take out lift assembly includes a first lift drive assembly for lifting the take out assembly 2100. Specifically, referring to fig. 4, the first lift driving assembly includes a first lift driver 2701 and a first lift transmission assembly, and the first lift driver 2701 is connected to and drives the first lift transmission assembly to operate.

The first lift driver 2701 includes a motor, and a rotation shaft of the first lift driver 2701 is connected to and drives the first lift transmission assembly to operate. Further, the number of the first elevating transmission assemblies is two, and the first elevating driver 2701 has two synchronous shafts to respectively connect and drive the two first elevating transmission assemblies to operate.

The first lifting transmission assembly has at least the following realizable modes: the first lifting transmission assembly comprises a gear rack mechanism; or the first lifting transmission assembly comprises a belt transmission mechanism; or the first lifting drive assembly comprises a chain drive.

As an embodiment, referring to fig. 4, the loading mechanism 2000 includes a first mounting plate 2201, a first lifting driving assembly is disposed on the first mounting plate 2201, and specifically, the first lifting driver 2701 is disposed on the first mounting plate 2201.

Referring to fig. 4, the material taking and lifting assembly includes a second mounting plate 2202, the second mounting plate 2202 is located below the first mounting plate 2201, the first lifting and driving assembly is connected to the second mounting plate 2202 and drives the second mounting plate 2202 to lift, and the second mounting plate 2202 directly or indirectly drives the material taking assembly 2100 to lift.

Further, the loading mechanism 2000 includes a first elevation guide assembly, and the second mounting plate 2202 and the take-out assembly 2100 are smoothly elevated under the guide of the first elevation guide assembly. Specifically, referring to fig. 4, the first lifting guide assembly includes a first guide tube 2301 and a second guide tube 2302, the second guide tube 2302 is disposed on the second mounting plate 2202, the first guide tube 2301 is disposed on the first mounting plate 2201, and the first guide tube 2301 is sleeved on the second guide tube 2302, and the inner side wall of the first guide tube 2301 is slidably connected with the outer side wall of the second guide tube 2302.

As one embodiment, the take-out lift assembly includes a second lift drive assembly disposed on a second mounting plate 2202, the second lift drive assembly coupled to the take-out assembly 2100 and capable of driving the take-out assembly 2100 to lift.

It should be noted that, when the first lifting driving assembly realizes lifting in a gear-rack engaged transmission manner, in order to avoid the length process of the rack, the second lifting driving assembly is added to cooperate with the first lifting driving assembly to realize the lifting stroke of the material taking assembly 2100 when grabbing and releasing the shaping material, so as to avoid instability of the rack and improve the stability of the material taking assembly 2100 when lifting.

Referring to fig. 4, the second lift driving assembly includes a second lift driver 2801, the second lift driver 2801 drives the material taking assembly 2100 to lift, and the second lift driver 2801 includes an air cylinder. Or the second lift actuator 2801 may be engaged with a rack and pinion to raise and lower the take-off assembly 2100, in which case the second lift actuator 2801 includes a motor.

Further, the first lifting guide assembly includes a first lifting guide rod 2303, and referring to fig. 4, the first lifting guide rod 2303 is connected to the material taking assembly 2100, the second guide cylinder 2302 is sleeved on the first lifting guide rod 2303, and the inner side wall of the second guide cylinder 2302 is slidably connected with the outer side wall of the first lifting guide rod 2303.

In some embodiments, the pick-up lift assembly includes a third mounting plate 2203, the pick-up lift assembly drives the third mounting plate 2203 to lift, and the pick-up assembly 2100 is coupled to the third mounting plate 2203. Referring to fig. 4, the third mounting plate 2203 extends longitudinally, the first lifting guide rod 2303 is connected to the third mounting plate 2203, and the second lifting driver 2801 is connected to the third mounting plate 2203 and can drive the third mounting plate 2203 to lift.

As one embodiment, the take-out assembly 2100 is movably coupled to the third mounting plate 2203, and the take-out assembly 2100 is moved longitudinally to adjust the position of the gripped modeling material, or the take-out assembly 2100 is adjusted in position to grip the modeling material.

Referring to fig. 4, the loading mechanism 2000 includes a first drive assembly 2500, the first drive assembly 2500 including an air cylinder or an electric cylinder, the first drive assembly 2500 being respectively coupled to a third mounting plate 2203 and a take out assembly 2100. It will be appreciated that the first drive assembly 2500 drives the take-off assembly 2100 longitudinally relative to the third mounting plate 2203 with the third mounting plate 2203 as a support point along a longitudinal direction parallel to the extension direction of the take-off assembly 2100 to adjust the position of the take-off assembly 2100 so that the ends of the front and rear sizing materials are abutted.

Further, a guiding structure is disposed between the material taking assembly 2100 and the third mounting plate 2203, the third mounting plate 2203 is slidably connected to the guiding structure through a slider, and the guiding structure is disposed on the material taking assembly 2100. Or the guide structure is disposed on the third mounting plate 2203, and the take-out assembly 2100 is slidably coupled to the guide structure via a slider. It will be appreciated that the guide structure extends in a longitudinal direction, the guide structure being provided as at least one guide rail or as at least one guide groove.

In one embodiment, the loading mechanism 2000 includes a baffle assembly disposed on the material taking assembly 2100, and at least one baffle assembly is disposed on the material taking assembly 2100. One end of the take out assembly 2100 is provided with a baffle assembly and the end of the baffle assembly is positioned adjacent to the previous sizing material on the side wall of the bed net. After the loading mechanism 2000 transfers the shaping material to the second position, the material taking assembly 2100 moves to adjust the position of the shaping material relative to the side of the bed net, and the blocking assembly is used for separating the shaping material from the bed net, so as to prevent the shaping material from being adhered to the side of the bed net by mistake.

Referring to fig. 4 and 8, the baffle assembly includes a baffle 2601, the baffle 2601 being capable of extending between a side edge of the bed net and the sizing material to separate the sizing material from the bed net. It will be appreciated that the spacer 2601 can also be withdrawn from between the mesh and the sizing material. Specifically, the barrier assembly includes a barrier driver 2602, the barrier driver 2602 is disposed on the take out assembly 2100, the barrier driver 2602 is connected to the barrier 2601 and is capable of driving the barrier 2601 down to the side of the gripped modeling material to separate the modeling material from the bed net. Further, the barrier driver 2602 includes a motor or a cylinder or an electric cylinder.

As an embodiment, the feeding mechanism 2000 includes a first positioning structure, where the first positioning structure is used to be abutted against the upper side surfaces of the released setting material and the previous setting material, so that the upper side surfaces are flush when the two setting materials are abutted. It will be appreciated that the first positioning structure, in cooperation with the first press-fit assembly, ensures that the surface is flat when the ends of the setting material and the previous setting material are butted.

Referring to fig. 4 and 8, the first positioning structure includes a first positioning pressing plate 2401, where the first positioning pressing plate 2401 can be lifted, and the first positioning pressing plate 2401 is used to be abutted against the upper side of the released setting material and the previous setting material, so that the upper sides are flush when the two setting materials are butted. It is understood that the first positioning structure includes a first positioning driver 2402, the first positioning driver 2402 includes a motor or a cylinder or an electric cylinder, and the first positioning driver 2402 is connected to the first positioning platen 2401 to drive the first positioning platen 2401 to lift.

Based on the above description of the loading mechanism 2000, a supplementary explanation of the bed net bonding apparatus is provided below.

It will be appreciated that, to achieve the reciprocal movement of the loading mechanism 2000 between the first position and the second position, the bed net bonding apparatus includes a second drive assembly disposed on the feed mount, the second drive assembly being coupled to the loading mechanism 2000 and driving the loading mechanism 2000 to reciprocate between the first position and the second position in a lateral direction. The second driving assembly drives the feeding mechanism 2000 to move in a belt transmission or chain transmission mode, and the second driving assembly is connected with two ends of the first mounting plate 2201.

At least one of the two sides of the conveying platform 1000 is provided with a feeding mechanism 2000, and at least one of the two sides of the conveying platform 1000 is provided with an adhesive mechanism 4000.

In some embodiments, and with reference to fig. 1, a loading mechanism 2000 is provided at one side of the transport platform 1000, and correspondingly, an adhesive mechanism 4000 is provided at the side of the transport platform 1000.

In other embodiments, referring to fig. 2, the feeding mechanisms 2000 are disposed at two sides of the conveying platform 1000, in this case, the bonding mechanisms 4000 are disposed at two sides of the conveying platform 1000 respectively, and the feeding mechanisms 2000 of the bed net bonding apparatus are configured with the alignment mechanisms 3000 and the feeding mechanisms 6000. Further, the loading mechanisms 2000 on both sides of the conveying platform 1000 are symmetrically arranged.

In still other embodiments, the feeding mechanism 2000 is disposed at two sides of the conveying platform 1000, the bonding mechanism 4000 is disposed at one side of the conveying platform 1000, and the bonding mechanism 4000 can move laterally to switch to two sides of the conveying platform 1000, so that the glue spraying component 4100 provides adhesive for adhering the setting material at two sides of the bed net.

In the case where the bed net bonding apparatus has the cloth lifting mechanism 5000, at least one of the two sides of the transport platform 1000 is provided with the cloth lifting mechanism 5000.

In some embodiments, with reference to fig. 1, where loading mechanism 2000 is provided at a side of transport platform 1000, cloth lifting mechanism 5000 is provided at the side of transport platform 1000 accordingly.

In other embodiments, referring to fig. 2, in the case where the feeding mechanism 2000 is disposed at two sides of the conveying platform 1000, the cloth lifting mechanisms 5000 are disposed at two sides of the conveying platform 100 respectively.

The present application will now be described in detail with reference to specific embodiments, it being noted that the following description is illustrative only and not limiting in nature.

The application relates to a bed net bonding method, which is implemented by bed net bonding equipment.

The bed net bonding method includes the following workflow.

The conveying platform 1000 conveys the continuous bed net, the cloth lifting mechanism 5000 lifts and maintains the upper cloth of the bed net in a lifted state, and the cloth lifting mechanism 5000 can maintain the continuous upper cloth of the bed net in a lifted state along with the conveying of the bed net.

The feeding mechanism 2000 moves to a first position in the lateral direction and grabs the setting material, and the feeding mechanism 2000 moves from the first position to a second position in the lateral direction.

The glue assembly 4100 moves in the machine direction and sprays adhesive on the side of the bed net and/or the side of the setting material facing the bed net.

The loading mechanism 2000 releases the sizing material that adheres to the sides of the bed net.

It should be noted that, considering that the bed net is a continuous structure, the shaping materials are sequentially adhered to the side edges of the bed net in the longitudinal direction. Wherein the end of the shaping material abuts the end of the previous shaping material to form a continuous shaping at the side of the bed net.

In some examples, the loading mechanism 2000 moves to the first position along the lateral direction and grabs the setting material, the loading mechanism 2000 moves from the first position to the alignment mechanism 3000 along the lateral direction, the loading mechanism 2000 releases the setting material into the alignment mechanism 3000, the alignment mechanism 3000 pushes and adjusts the position of the setting material, the loading mechanism 2000 grabs the setting material in the alignment mechanism 3000, and the loading mechanism 2000 moves to the second position along the lateral direction.

In some examples, initially, the glue assembly 4100 is positioned near the downstream of the conveyor platform 1000, and after the loading mechanism 2000 transfers the sizing material to the second position, the glue assembly 4100 is moved upstream from the downstream of the conveyor platform 1000 to apply the desired adhesive to the sides of the bed web for the sizing material to adhere to. It should be noted that, the glue spraying assembly 4100 also needs to spray adhesive to the end of the previous setting material.

Thereafter, the glue assembly 4100 is moved in a reverse direction to a set position downstream of the delivery platform 1000 where the glue assembly 4100 provides the adhesive required for bonding between the upper side of the sizing material and the upper layer of cloth as the delivery platform 1000 gradually delivers the bed net downstream.

Specifically, after the glue spray assembly 4100 is moved to a set position downstream of the delivery platform 1000, the glue spray assembly 4100 sprays adhesive to the upper side of the setting material. Or spraying adhesive to the inner side of the upper layer cloth by the adhesive spraying assembly 4100; or the glue spraying assembly 4100 sprays adhesive to the upper side of the sizing material and the inner side of the upper layer cloth at the same time.

Further, the glue spraying assembly 4100 sprays glue at a set frequency or continuously sprays glue.

In some examples, at the second position, the material taking assembly 2100 moves longitudinally to adjust the position of the shaping material, when the shaping material is attached to the side edge of the bed net, the first positioning pressing plate 2401 moves downward and abuts against the upper side surface of the junction between two adjacent shaping materials, and the first pressing structure 4201 moves laterally and abuts against the outer side surface of the junction between two adjacent shaping materials, so that the surface of the junction between two adjacent shaping materials is flat.

In the description of the present specification, if a description appears that makes reference to the term "one embodiment," "some examples," "some embodiments," "an exemplary embodiment," "an example," "a particular example," or "some examples," etc., it is intended that the particular feature, structure, material, or characteristic described in connection with the embodiment or example be included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The embodiments of the present application have been described in detail with reference to the drawings, but the present application is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present application.

In the description of the present application, the terms "and" if used in the singular are intended to mean "and" as opposed to "or". For example, the patent name "a A, B" describes that what is claimed in the present application is: a technical scheme with a subject name A and a technical scheme with a subject name B.

Claims (16)

1. A bed net bonding apparatus, characterized in that: comprising

A transport platform (1000), the transport platform (1000) transporting the bed net in a longitudinal direction;

The feeding mechanism (2000), at least one side of the two sides of the conveying platform (1000) is provided with the feeding mechanism (2000), the feeding mechanism (2000) is used for grabbing a shaping material and transferring the shaping material from a first position to a second position close to the side edge of the bed net, the feeding mechanism (2000) comprises a material taking assembly (2100) and a material taking lifting assembly, the material taking assembly (2100) extends longitudinally, the material taking assembly (2100) is used for grabbing and releasing the shaping material, the material taking lifting assembly comprises a first lifting driving assembly and a third mounting plate (2203), the first lifting driving assembly drives the third mounting plate (2203) to lift, and the material taking assembly (2100) is connected with the third mounting plate (2203);

the bonding mechanism (4000) is arranged on at least one of two sides of the conveying platform (1000), the bonding mechanism (4000) comprises a glue spraying assembly (4100), the glue spraying assembly (4100) can move longitudinally and spray adhesive on a shaping material and/or the glue spraying assembly (4100) sprays adhesive on the side edge of a bed net;

The feeding mechanism (2000) further comprises a first driving assembly (2500), the first driving assembly (2500) is respectively connected with the third mounting plate (2203) and the material taking assembly (2100), the first driving assembly (2500) drives the material taking assembly (2100) to longitudinally move relative to the third mounting plate (2203) so as to adjust the position of the material taking assembly (2100), and the ends of the front shaping material and the rear shaping material are butted.

2. The bed net bonding apparatus of claim 1, wherein: feeding mechanism (2000) includes first mounting panel (2201), get material lifting assembly and include second lift drive assembly and second mounting panel (2202), first lift drive assembly set up in first mounting panel (2201), first lift drive assembly connect second mounting panel (2202) and drive second mounting panel (2202) go up and down, second lift drive assembly set up in second mounting panel (2202), second lift drive assembly connects get material assembly (2100) and can drive get material assembly (2100) go up and down.

3. The bed net bonding apparatus of claim 2, wherein: the feeding mechanism (2000) comprises a first lifting guide assembly, the first lifting guide assembly comprises a first guide cylinder (2301), a second guide cylinder (2302) and a first lifting guide rod (2303), the first lifting guide rod (2303) is connected with the material taking assembly (2100), the second guide cylinder (2302) is arranged on the second mounting plate (2202) and is sleeved on the first lifting guide rod (2303), and the first guide cylinder (2301) is arranged on the first mounting plate (2201) and is sleeved on the second guide cylinder (2302).

4. The bed net bonding apparatus of claim 1, wherein: the feeding mechanism (2000) comprises a first positioning structure, the first positioning structure comprises a first positioning pressing plate (2401) and a first positioning driver (2402), the first positioning driver (2402) is connected with the first positioning pressing plate (2401) to drive the first positioning pressing plate (2401) to lift, and the first positioning pressing plate (2401) is used for being abutted to the upper side surfaces of the released shaping material and the previous shaping material so that the upper side surfaces are flush when the two shaping materials are abutted.

5. The bed net bonding apparatus of claim 1 or 4, wherein: the feeding mechanism (2000) comprises a baffle assembly, the baffle assembly is arranged on the material taking assembly (2100), the baffle assembly comprises a baffle driver (2602) and a baffle plate (2601), the baffle driver (2602) is connected with the baffle plate (2601) and can drive the baffle plate (2601) to descend to the side face of the grabbed shaping material, so that the shaping material and the bed net are separated.

6. The bed net bonding apparatus of claim 1, wherein: the bed net bonding equipment comprises a contraposition mechanism (3000), wherein the contraposition mechanism (3000) is arranged between the first position and the second position, and the contraposition mechanism (3000) is used for adjusting the position of the sizing material to be transferred by the feeding mechanism (2000); and the feeding mechanism (2000) releases the sizing material into the alignment mechanism (3000) in the process of transferring the sizing material from the first position to the second position, and after the alignment mechanism (3000) finishes alignment, the feeding mechanism (2000) snacks the sizing material again and transfers the sizing material to the second position.

7. The bed net bonding apparatus of claim 6, wherein: the alignment mechanism (3000) comprises a first alignment assembly and a second alignment assembly, the first alignment assembly comprises a first alignment movable plate (3101) and a first alignment fixed plate (3102), the first alignment movable plate (3101) and the first alignment fixed plate (3102) are all longitudinally extended and are oppositely arranged, the second alignment assembly comprises a second alignment movable plate (3201) and a second alignment fixed plate (3202), the second alignment movable plate (3201) and the second alignment fixed plate (3202) are both transversely extended and oppositely arranged, the first alignment movable plate (3101), the first alignment fixed plate (3102), the second alignment movable plate (3201) and the second alignment fixed plate (3202) form an alignment area, the shaping material is arranged in the alignment area, the side surfaces of the first alignment movable plate (3101) and the first alignment fixed plate (2) are respectively abutted against the second shaping material (3201) and the shaping material is respectively abutted against the second end surface of the shaping material (3202).

8. The bed net bonding apparatus of any one of claims 1 to 4, wherein: the material taking assembly (2100) comprises at least one pin assembly, the pin assembly comprises a pin driver and at least two pins with different directions, the pin driver drives the pins to insert or withdraw from the shaping material, and the material taking assembly (2100) grabs the shaping material through the pins inserted into the shaping material.

9. The bed net bonding apparatus of claim 1, wherein: the bonding mechanism (4000) comprises a first bonding assembly, the first bonding assembly comprises a first bonding structure (4201), the first bonding structure (4201) extends along the longitudinal direction, the first bonding structure (4201) can move along the transverse direction, and the first bonding structure (4201) is used for abutting against the outer side surface of the shaping material and bonding the shaping material to the side edge of the bed net.

10. The bed net bonding apparatus of claim 9, wherein: the bonding mechanism (4000) comprises a second pressing assembly, the second pressing assembly comprises a second pressing plate (4301), the second pressing plate (4301) can move transversely, and the second pressing plate (4301) is used for being simultaneously abutted to the outer side surfaces of the released shaping material and the previous shaping material so that the outer side surfaces are flush when the two shaping materials are abutted.

11. The bed net bonding apparatus of claim 1 or 2 or 3 or 4 or 9 or 10, wherein: the bed net bonding equipment comprises a cloth lifting mechanism (5000), wherein at least one of two sides of the conveying platform (1000) is provided with the cloth lifting mechanism (5000), and the cloth lifting mechanism (5000) is used for uncovering and keeping the upper layer cloth of the bed net in an uncovering state.

12. The bed net bonding apparatus of claim 11, wherein: the cloth lifting mechanism (5000) comprises a flap assembly (5100), the flap assembly (5100) comprises a flap (5101) extending along the longitudinal direction, the flap (5101) can rotate around an axis parallel to the longitudinal direction to uncover upper layer cloth of a bed net, and the flap (5101) can be kept in a rotated inclined position.

13. The bed net bonding apparatus of claim 12, wherein: the flap assembly (5100) can be lifted to accommodate bed nets of different thicknesses and/or the flap assembly (5100) can be moved in a transverse direction to accommodate bed nets of different widths.

14. A method for bonding a bed net, which is characterized in that: the bed net bonding method is implemented by the bed net bonding device according to any one of claims 1 to 10, and the bed net bonding device further comprises a cloth lifting mechanism (5000); the bed net bonding method comprises the following steps of

The conveying platform (1000) conveys the continuous bed net, and the cloth lifting mechanism (5000) enables the upper layer cloth of the bed net to be uncovered and kept in an uncovered state;

the feeding mechanism (2000) transversely moves to a first position and grabs the shaping material;

the feeding mechanism (2000) moves from a first position to a second position along the transverse direction;

The glue spraying assembly (4100) moves longitudinally and sprays adhesive on the side of the bed net and/or the side of the shaping material facing the bed net;

The feeding mechanism (2000) releases a shaping material, and the shaping material is adhered to the side edge of the bed net;

Wherein the end of the shaping material abuts the end of the previous shaping material.

15. The bed net bonding method of claim 14, wherein: the glue spraying assembly (4100) moves from the downstream to the upstream of the conveying platform (1000) to spray the required adhesive for adhering the sizing material to the side edge of the bed net, the glue spraying assembly (4100) moves reversely to a set position at the downstream of the conveying platform (1000) and sprays the adhesive to the upper side surface of the sizing material and/or the inner side surface of the upper layer cloth after moving to the set position, and the glue spraying assembly (4100) sprays the adhesive according to set frequency or continuously sprays the adhesive.

16. A bed net, characterized in that: the bed net is manufactured using the bed net bonding apparatus as claimed in any one of claims 1 to 13.