CN216271897U - Baffle placer - Google Patents

Abstract

A separator placing device comprises a rack, wherein a storage part, a taking-out part, a carrying part and a box body conveying part are arranged on the rack; the storage component is provided with a first translation assembly, and the taking-out component is provided with a sliding table, a first suction assembly, a second suction assembly, a third suction assembly and a swing mechanism; the swing mechanism can drive the second suction assembly to swing in a reciprocating manner; the separator placing device comprises a separator forming cylinder with a push plate; the conveying component is provided with a lifting translation mechanism, a forming partition plate adsorption assembly and a mounting seat, the forming partition plate adsorption assembly is provided with two adsorption units which are arranged in a staggered mode in the horizontal direction, and each adsorption unit comprises a second air cylinder, a sucking disc and a limiting plate; the box conveying component is provided with a box expanding component, the translational motion of the lifting and translating mechanism is parallel to the conveying direction of the box conveying component, and the lifting motion range of the adsorption unit is intersected with the translational motion range of the box conveying component. The utility model can automatically place the partition boards and improve the working efficiency.

Description

Baffle placer

Technical Field

The utility model belongs to the technical field of product packaging automation equipment, and particularly relates to a partition board placing device.

Background

A packing box is often needed in a commodity circulation link, the packing box is mostly of a paper and rectangular structure, and an internal storage space is of a rectangular structure and can contain a plurality of commodities; the goods can be vertically placed in the box or horizontally placed in the box according to the external characteristics, which is a very common packaging technology. In order to prevent the commodities arranged in the box from disorderly fleeing, particularly the situation of disordered arrangement after the commodities are mutually extruded due to violent movement in a transportation link, a partition plate is arranged in the packaging box; the partition boards are in many forms, and are commonly flat-plate-shaped partition boards, cross-shaped partition boards, C-shaped partition boards, Z-shaped partition boards and the like.

In the prior art, the Z-shaped partition plate is still placed by manual operation of workers, the working efficiency is low, the automation degree is low, and the working mode is not beneficial to enterprise digital management.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a partition plate placing device to solve the problems of large labor amount and low automation degree of a partition plate placing process in the prior art.

The utility model provides a separator placing device, which adopts the technical scheme that the separator placing device comprises a rack, wherein a storage part, a taking-out part, a carrying part and a box conveying part are arranged on the rack; the storage part is provided with a first translation assembly, and an output end positioned at one end of the first translation assembly is arranged on the storage part; the taking-out component is provided with a sliding table, a first sucking assembly, a second sucking assembly, a third sucking assembly and a swinging mechanism, the sliding table is positioned on one side of the first translation assembly, which is provided with an output end, the first sucking assembly, the second sucking assembly and the third sucking assembly are sequentially arranged and installed on the sliding table in a direction perpendicular to the conveying direction of the first translation assembly, the second sucking assembly is installed on the sliding table through the swinging mechanism, the sliding table can linearly slide in a reciprocating manner, the sliding direction is parallel to the conveying direction of the first translation assembly, and the swinging mechanism can drive the second sucking assembly to swing in a reciprocating manner; the partition board placing device further comprises a partition board forming air cylinder, the output end of the partition board forming air cylinder is provided with a push plate, and the movement range of the push plate is intersected with the movement area of the second suction assembly positioned above the sliding table; the conveying component is provided with a lifting translation mechanism, a forming partition board adsorption assembly and a mounting seat, the mounting seat moves in translation along with the lifting translation mechanism, the forming partition board adsorption assembly is arranged at the lower part of the mounting seat and is provided with two adsorption units in opposite directions, the motion range of each adsorption unit is at least intersected with the motion ranges of the first adsorption assembly and the second adsorption assembly, the two adsorption units are arranged in a staggered mode in the horizontal direction, each adsorption unit comprises a second air cylinder, a sucking disc and a limiting plate, and the sucking discs are fixed on the outer end face of the limiting plate and are fixed at the telescopic end of the second air cylinder along with the limiting plate; the box conveying component is provided with a box expanding component, the lifting translation mechanism is positioned right above the box conveying component, the translation movement direction of the lifting translation mechanism is parallel to the movement direction of the box conveying component, and the vertical direction lifting movement range of the adsorption unit is intersected with the translation movement range of the box conveying component.

Preferably, storage component still is equipped with preceding fender axle, separation blade, preceding fender axle drive assembly, backplate, preceding fender axle is located the output and both ends of first translation subassembly and rotates and connect in the frame, the separation blade is fixed in the front and keeps off epaxially, preceding fender axle and backplate parallel arrangement, the backplate can remove along with the transport motion of first translation subassembly, preceding fender axle drive assembly drive preceding fender axle rotates and makes the separation blade swing between level and vertical state and switch.

Preferably, first translation subassembly is equipped with running roller, hold-in range, backplate and actuating mechanism, the running roller respectively is equipped with one at the both ends of first translation subassembly, the hold-in range is connected between two running rollers, one of them running roller of actuating mechanism drive rotates, the backplate is located the both sides of first translation subassembly, the overhead portion at first translation subassembly is striden to the backplate, one side of first translation subassembly is equipped with the guiding axle of fixing in the frame and being located the hold-in range top, one side of backplate is cup jointed on the guiding axle through the slider, be connected for dismantling between backplate and the hold-in range.

Preferably, the storage component is further provided with an L-shaped elastic shifting piece, the elastic shifting piece is installed at the output end of the first translation assembly, two sides of the first translation assembly are respectively provided with one elastic shifting piece, and one end of each elastic shifting piece extends into the upper portion of the synchronous belt of the first translation assembly.

Preferably, the front blocking shaft driving assembly comprises a first cylinder and a swing arm, the first cylinder is fixed on the frame and located on one side of the first translation assembly, the output end of the first cylinder is movably connected with one end of the swing arm, and the other end of the swing arm is fixedly connected with the end head on one side of the front blocking shaft.

Preferably, the box expansion assembly is provided with a lifting cylinder, an installation frame, a box expansion cylinder, a box expansion plate, a guide pillar and a sliding seat; the box body conveying device is characterized in that the sliding seats are provided with a plurality of guide pillars which are distributed on two sides of the box body conveying component, each sliding seat is provided with a guide pillar which is connected with the sliding seat in a vertical direction in a sliding mode, the upper end of the box body conveying component is provided with an installation frame which is connected with the guide pillars together, each sliding seat is fixedly provided with a lifting cylinder, a piston rod of each lifting cylinder is connected with the installation frame, the inner sides of four side frames of the installation frame are fixedly provided with a box expansion cylinder, the output end of each box expansion cylinder is provided with a box expansion plate, and the box expansion plates reciprocate between the center of the installation frame and the side frame of the installation frame under the action of the box expansion cylinders.

Preferably, the part of taking out still be equipped with base plate, guide rail, hold-in range and actuating mechanism, the base plate is located the lower part of slip table, the guide rail is equipped with two and parallel installs on the base plate, the bottom of slip table is passed through sliding sleeve and guide rail sliding connection, hold-in range and sliding sleeve fixed connection, actuating mechanism drive hold-in range drives slip table straight reciprocating motion.

Preferably, first subassembly, the second of drawing is drawn subassembly and third and is drawn the subassembly and all include support, sucking disc, the support that first subassembly and the third were drawn the subassembly is fixed on the slip table, swing mechanism is equipped with the swing cylinder, the support that the subassembly was drawn to the second is connected, every with the pivot that the swing cylinder runs through the slip table all be equipped with a plurality of sucking discs on the support.

Preferably, the lifting translation mechanism comprises a second translation assembly and a lifting assembly, the second translation assembly is provided with a driving mechanism, rollers, a synchronous belt, a guide rail and a sliding sleeve, the rollers are respectively arranged at two ends of the second translation assembly, the synchronous belt is connected between the two rollers, the driving mechanism is used for driving one of the rollers to rotate, the lower end of the mounting seat is connected to the guide rail through the sliding sleeve, and the synchronous belt is fixedly connected with the mounting seat; the lifting assembly is installed on the upper portion of the installation seat.

In summary, the technical scheme of the utility model at least has the following beneficial effects:

1. the automatic operation of placing the partition plates is realized, the amount of manual labor is reduced, and the production efficiency is improved;

2. the partition board can be subjected to form conversion on line, a Z-shaped state is formed by bending twice from a planar state, the form conversion is stable and reliable, and the quality is uniform;

3. the structure of each part is compact, the movement is coordinated and uniform, and the production arrangement is convenient.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a perspective view II of the overall structure of the present invention;

FIG. 3 is a front view of the overall structure of the present invention;

FIG. 4 is a side view of the overall structure of the present invention;

FIG. 5 is a top view of the present hair removal device construction (three suction assemblies in a generally planar configuration);

FIG. 6 is a view showing a state that the second sucking assembly of FIG. 5 of the present invention swings 90 ° (the plane partition plate is bent for the first time);

FIG. 7 is a perspective view of the extractor member of the present invention;

FIG. 8 is a perspective view II of the extractor member configuration of the present invention;

FIG. 9 is an enlarged view A of a portion of FIG. 1 in accordance with the present invention;

FIG. 10 is an enlarged view B of the portion of FIG. 3 in accordance with the present invention;

FIG. 11 is a schematic view showing a state change of the separator according to the present invention.

In the figure: a frame 1;

a first translation assembly 20; a front catch shaft 21; a baffle plate 22; a tailgate 23; a cover sheet 24; a guide shaft 25; a slider 26; an elastic shifting piece 27, a first air cylinder 28 and a swing arm 29;

a slide table 30; a first suction assembly 31; a second suction assembly 32; a third suction assembly 33; oscillating cylinder 34

A separator forming cylinder 40; a push plate 41;

a second translation assembly 50; a mount base 51; a lift assembly 52; the second cylinder 53; a stopper plate 54; a suction cup 55;

a box body conveying component 6; a lifting cylinder 61; a mounting frame 62; a box expansion cylinder 63; a slide carriage 64; and a guide post 65.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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 invention.

The present invention provides a separator placing apparatus, as can be seen from fig. 1 to 11, comprising a storage means, a take-out means, a carrying means, and a box conveying means 6. The storage component is used for storing and transporting the flat-plate-shaped partition plates and comprises a first translation assembly 20, a front baffle shaft 21, a baffle 22, a front baffle shaft 21 driving assembly and a rear baffle plate 23, wherein the first translation assembly 20 adopts a synchronous belt with a certain width as a conveying component, the first translation assembly 20 is fixed on the rack 1, the front baffle shaft 21 is fixed at the conveying front end of the first translation assembly 20, the rear baffle plate 23 is parallel to the front baffle shaft 21, the rear baffle plate 23 moves along with the synchronous belt on the first translation assembly 20, in the initial stage of production, vertically placed closely-arranged plane partition plates (the whole unbent partition plates with flat shapes) are firstly placed between the front baffle shaft 21 and the rear baffle plate 23, the plane partition plates are limited by the front baffle shaft 21 and the rear baffle plate 23, and are conveyed along the first translation assembly 20 under the action of the synchronous belt by the rear baffle plate 23. The two sides of the first translation assembly 20 are provided with guard plates 24 for limiting the alignment of the two sides of the width of the plane partition plate, one side of the first translation assembly 20 is provided with a guide shaft 25, one side of the back baffle plate 23 is sleeved on the guide shaft 25 through a slide block 26, and the guide shaft 25 guides the movement of the back baffle plate 23 along the first translation assembly 20, so that when the plane partition plate is conveyed, the back baffle plate 23 is placed on a conveying belt of the first translation assembly 20, the back baffle plate 23 can move along with the first translation assembly 20, and when the back baffle plate 23 pushes the plane partition plate, a plurality of plane partition plates which are not bent can be tightly attached and arranged in a vertical posture, and the influence of looseness on subsequent work is avoided; after the plane baffle plate is used or needs to be supplemented, the connection between the rear baffle plate 23 and the synchronous belt is loosened, the rear baffle plate 23 is pulled back in the direction opposite to the conveying direction manually, the guide shaft 25 can play a role of a track, and then the plane baffle plate is supplemented and placed between the front baffle plate 21 and the rear baffle plate 23. The front blocking shaft 21 is located at the output end of the first translation assembly 20, the front blocking shaft 21 is located above the synchronous belt, two ends of the front blocking shaft 21 are rotatably connected to the rack 1, a front blocking shaft 21 driving assembly used for driving the front blocking shaft 21 to rotate is further arranged on the rack 1, the front blocking shaft 21 driving assembly comprises a first air cylinder 28 and a swing arm 29, the first air cylinder 28 is fixed on the rack 1 and located on one side of the first translation assembly 20, the output end of the first air cylinder 28 is movably connected with one end of the swing arm 29, the other end of the swing arm 29 is fixedly connected with one side end of the front blocking shaft 21, therefore, the telescopic portion of the first air cylinder 28 can drive the front blocking shaft 21 to swing through the swing arm 29, the rotation range of the front blocking shaft 21 is 90 degrees, a blocking piece 22 located on the front side of the plane partition board is fixed on the front blocking shaft 21, and the rotation of the front blocking shaft 21 enables the blocking piece 22 to be switched between a vertical state and a horizontal state. When the blocking piece 22 is in a vertical state, the blocking piece 22 is in contact with the planar partition to form a limiting effect on the planar partition, the planar partition cannot be taken out at the moment, and when the blocking piece 22 is switched to a horizontal state, the blocking piece 22 is separated from the planar partition to remove the limitation. In addition, an elastic shifting piece 27 is arranged on the storage part, the elastic shifting piece 27 is arranged at the output end of the first translation assembly 20, one elastic shifting piece is respectively arranged at two sides of the first translation assembly 20, and the elastic shifting piece 27 is in an L shape, as shown in the attached figure 9: elasticity plectrum 27 is located the top of hold-in range, the one end of elasticity plectrum 27 is fixed in frame 1 along direction of delivery, the other end of elasticity plectrum 27 is buckled towards the inboard of hold-in range, wherein the one end design of the inside bending of elasticity plectrum 27 towards the hold-in range is elastic construction, at the during operation, the end of buckling that elasticity plectrum 27 is located the front side of plane baffle and forms spacingly, when the plane baffle need take out, plane baffle (the whole that does not buckle is the baffle of platykurtic) and elasticity plectrum 27 all can produce certain deformation and adapt to this moment, take out the back at preceding plane baffle like this, elasticity plectrum 27 can block and form the restriction effect in the front side of a back plane baffle.

The taking-out component is positioned at the front end of the storage component in the conveying direction and used for taking out the planar partition plates on the storage component one by one from the output end of the storage component and bending the planar partition plates, the taking-out component is provided with a sliding table 30, a first suction component 31, a second suction component 32, a third suction component 33 and a swing cylinder, wherein the sliding table 30 is positioned at one side of the first translation component 20 provided with the output end, the sliding table 30 is arranged on a base plate in a sliding mode, the base plate is fixedly connected with the rack 1, two guide rails parallel to the conveying direction of the first translation component 20 are arranged above the base plate, the bottom of the sliding table 30 is connected with the guide rails in a sliding mode through a sliding sleeve, and therefore the sliding table 30 can reciprocate linearly along the guide rails under the driving of a driving mechanism (synchronous belt drive). The sliding direction of the sliding table 30 is parallel to the conveying direction of the first translating assembly 20, the sliding table 30 can be close to or far away from the output end of the first storage component under the action of the driving mechanism, and then the first suction assembly 31, the second suction assembly 32 and the third suction assembly 33 are close to or far away from the storage component along with the sliding table 30. In an initial state, the first suction assembly 31, the second suction assembly 32 and the third suction assembly 33 are sequentially installed on the sliding table 30 side by side, at this time, suction surfaces of the first suction assembly 31, the second suction assembly 32 and the third suction assembly 33 are coplanar, the first suction assembly 31, the second suction assembly 32 and the third suction assembly 33 all comprise a bracket and a suction cup 55, the brackets of the first suction assembly 31 and the third suction assembly 33 are fixed on the sliding table 30, the second suction assembly 32 is located between the first suction assembly 31 and the third suction assembly 33, the bracket of the second suction assembly 32 is connected with a rotating shaft of a swing cylinder penetrating through the sliding table 30, each bracket is provided with a plurality of suction cups 55, when a planar partition plate on a storage component needs to be taken out, at this time, the sliding table 30 firstly approaches an output end of the storage component under the action of a driving mechanism, in the initial state, the working surfaces of the first suction assembly 31, the second suction assembly 32 and the third suction assembly 33 are positioned on the same plane, the three suction assemblies jointly suck the plane partition plate through the suction disc 55, then the sliding table 30 is driven in a reverse sliding mode to take the plane partition plate out of the storage component, and after the suction assemblies move to a certain operating space with the storage component, the plane partition plate can be bent at the moment, and the specific process is that the second suction assembly 32 can rotate 90 degrees under the action of the swing cylinder, as shown in the attached figures 5 and 6; thus, the planar partition board can be bent (bc is bent at the same time, the bent portion is the boundary line between the section a and the section b, as shown in fig. 11) to form an L-shaped structure, and thus an L-shaped partition board can be obtained at this stage, it should be noted that before the swing cylinder is operated, the third suction assembly 33 is separated from the planar partition board (by controlling the suction cup 55 of the third suction assembly 33 to release in advance).

The separator placing device of the utility model further comprises a separator forming cylinder 40 for bending the taken-out part into an L-shaped separator for a second time to form a Z-shaped structure, the separator forming cylinder 40 is arranged at the adsorption side of the taken-out part, the output end of the separator forming cylinder 40 is provided with a push plate 41, the movement range of the push plate 41 is intersected with the L-shaped separator, the L-shaped separator is pushed by the push plate 41 to separate from the part of the third suction assembly 33 by the extension of the separator forming cylinder 40, and the Z-shaped separator is formed by the second time of bending, as shown in figure 11, the deformation process of the planar separator (which is divided into three sections a, b and c for easy understanding, wherein a corresponds to the first suction assembly 31, b corresponds to the second suction assembly 32, and c corresponds to the third suction assembly 33) is as follows, firstly, a, b and c are in the same plane, and then b is bent for the first time by the taken-out part to enable b to be in the first time of bending, The c sections are bent together to form L-shaped partition plates, finally, secondary bending is carried out under the action of a partition plate forming air cylinder 40 to enable the c sections to be bent to form Z-shaped partition plates, and the finally formed Z-shaped partition plates are placed into the carton.

The conveying component is used for taking away the formed partition board bent into the Z shape, the conveying component is provided with a lifting translation mechanism, a formed partition board adsorption component and a mounting seat 51, the lifting translation mechanism comprises a second translation component 50 and a lifting component 52, the mounting seat 51 is connected to the second translation component 50 in a sliding mode, the lifting component 52 is installed on the upper portion of the mounting seat 51 and driven by a lifting air cylinder or a lifting electric cylinder, the formed partition board adsorption component is installed on the lower portion of the mounting seat 51 and connected with the output end of the lifting air cylinder or the lifting electric cylinder, and therefore the formed partition board adsorption component can achieve bidirectional reciprocating movement in the horizontal direction and the vertical direction. The formed partition board adsorption assembly is provided with an installation plate and two adsorption units which are fixed at the lower end of the installation plate and face opposite directions, each adsorption unit comprises a second air cylinder 53, a suction disc 55 and a limiting plate 54, the suction discs 55 are fixed on the outer end face of the limiting plate 54 and are fixed at the output end of the second air cylinder 53 together, it needs to be noted that the two adsorption units are distributed in a staggered mode in the horizontal direction (matched with the section a and the section c of the Z-shaped partition board), as shown in the attached drawing 10, the two adsorption units can move to the inner side of the Z-shaped partition board and adsorb the section a and the section c of the Z-shaped partition board to carry, and the stability of carrying the Z-shaped partition board can be improved due to the structural design.

The utility model is also provided with a box body conveying component 6 for conveying the packaging box, wherein the box body conveying component 6 is positioned below the second translation component 50 and the taking-out component, the box body conveying component 6 adopts synchronous belt transmission, and a box expansion component is arranged at a baffle placing station on the box body conveying component 6 and is used for opening the opening of the packaging box so as to be convenient for placing the formed Z-shaped baffle, as shown in figure 2. The box expansion assembly is provided with a lifting cylinder 61, a mounting frame 62, a box expansion cylinder 63, a box expansion plate (not shown in the figure), a guide post 65 and a sliding seat 64; in the technical scheme, four sliding seats 64 are arranged in total, the sliding seats 64 are symmetrically arranged on two sides of a box conveying component 6, each sliding seat 64 is provided with a guide pillar 65 connected with the sliding seat in the vertical direction, the upper end of the box conveying component 6 is provided with an installation frame 62 connected with the four guide pillars 65 simultaneously, each sliding seat 64 is fixedly provided with a lifting cylinder 61, a piston rod of each lifting cylinder 61 is connected with the installation frame 62, four frames of the installation frame 62 are provided with a box expansion plate through box expansion cylinders, four box expansion plates are arranged in total, and box expansion cylinders 63 are fixed on the installation frame 62 and used for driving the box expansion plates to move back and forth from the center of the installation frame to the frame of the installation frame. In an initial state, the mounting frame 62 is located at a high position, a piston rod of the box expansion cylinder 63 extends out, and all box expansion plates are located at the center of the mounting frame 62; after the conveying part conveys the carton, the mounting frame 62 descends under the action of the lifting cylinder 61, and at the moment, the carton expansion plate moves from the center position of the mounting frame 62 to the edge under the action of the carton expansion cylinder 63, so that the four folding pages of the carton are limited or pushed outwards to open the interior of the carton. It should be noted that if the carton is in the open position at the time, the expansion board is not in operation. When the carton is opened, the forming partition adsorption assembly moves to the position right above the opened carton under the action of the lifting translation mechanism, the formed Z-shaped partition is placed into the carton under the action of the lifting assembly 52, then the forming partition adsorption assembly rises to separate from the carton, and at the moment, the one-time forming partition placing work is completed. It should be noted that the distribution of each component of the present invention in the spatial position can be set according to the actual situation, and the present invention is spatially divided into three layers, which are sequentially from bottom to top: the first layer is a box conveying component 6 (with a box expanding component); the second level is the first translation unit 20 (associated with the storage component) and the slide 30 (associated with the retrieval component); the third layer is a second translation assembly 50 (related to the formed partition adsorption assembly), wherein the box body conveying component 6 is positioned below the second translation assembly 50 and the sliding table 30, the moving directions of the first translation assembly 20 and the sliding table 30 are mutually perpendicular to the conveying direction of the box body conveying component 6, the partition forming air cylinder 40 is positioned at one side of the sliding table 30, the telescopic direction of the partition forming air cylinder 40 is mutually parallel to the conveying direction of the box body conveying component 6, and in the specific design, the movement range of the partition forming air cylinder 40 and the formed partition adsorption assembly does not intersect, so that interference is avoided.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the utility model.

Claims (9)

1. A separator placing device comprises a rack and is characterized in that a storage part, a taking-out part, a carrying part and a box body conveying part are arranged on the rack; the storage part is provided with a first translation assembly, and an output end positioned at one end of the first translation assembly is arranged on the storage part; the taking-out component is provided with a sliding table, a first sucking assembly, a second sucking assembly, a third sucking assembly and a swinging mechanism, the sliding table is positioned on one side of the first translation assembly, which is provided with an output end, the first sucking assembly, the second sucking assembly and the third sucking assembly are sequentially arranged and installed on the sliding table in a direction perpendicular to the conveying direction of the first translation assembly, the second sucking assembly is installed on the sliding table through the swinging mechanism, the sliding table can linearly slide in a reciprocating manner, the sliding direction is parallel to the conveying direction of the first translation assembly, and the swinging mechanism can drive the second sucking assembly to swing in a reciprocating manner; the partition board placing device further comprises a partition board forming air cylinder, the output end of the partition board forming air cylinder is provided with a push plate, and the movement range of the push plate is intersected with the movement area of the second suction assembly positioned above the sliding table; the conveying component is provided with a lifting translation mechanism, a forming partition board adsorption assembly and a mounting seat, the mounting seat moves in translation along with the lifting translation mechanism, the forming partition board adsorption assembly is arranged at the lower part of the mounting seat and is provided with two adsorption units in opposite directions, the motion range of each adsorption unit is at least intersected with the motion ranges of the first adsorption assembly and the second adsorption assembly, the two adsorption units are arranged in a staggered mode in the horizontal direction, each adsorption unit comprises a second air cylinder, a sucking disc and a limiting plate, and the sucking discs are fixed on the outer end face of the limiting plate and are fixed at the telescopic end of the second air cylinder along with the limiting plate; the box conveying component is provided with a box expanding component, the lifting translation mechanism is positioned right above the box conveying component, the translation movement direction of the lifting translation mechanism is parallel to the movement direction of the box conveying component, and the vertical direction lifting movement range of the adsorption unit is intersected with the translation movement range of the box conveying component.

2. The separator placing device according to claim 1, wherein the storage component further comprises a front blocking shaft, a blocking piece, a front blocking shaft driving assembly and a rear blocking plate, the front blocking shaft is located at the output end of the first translation assembly, two ends of the front blocking shaft are rotatably connected to the frame, the blocking piece is fixed on the front blocking shaft, the front blocking shaft and the rear blocking plate are arranged in parallel, the rear blocking plate can move along with the conveying movement of the first translation assembly, and the front blocking shaft driving assembly drives the front blocking shaft to rotate so that the blocking piece can swing and switch between a horizontal state and a vertical state.

3. The separator placing device according to claim 2, wherein the first translating assembly is provided with a roller, a synchronous belt, a guard plate and a driving mechanism, the roller is provided with one at each end of the first translating assembly, the synchronous belt is connected between the two rollers, the driving mechanism drives one of the rollers to rotate, the guard plate is located at each of two sides of the first translating assembly, the back baffle is arranged at the upper part of the first translating assembly in a spanning manner, a guide shaft which is fixed on the frame and located above the synchronous belt is arranged at one side of the first translating assembly, one side of the back baffle is sleeved on the guide shaft through a sliding block, and the back baffle is detachably connected with the synchronous belt.

4. The separator placing device according to claim 3, wherein the storage member is further provided with an L-shaped elastic pulling piece, the elastic pulling piece is mounted at the output end of the first translation assembly and is provided with one elastic pulling piece at each of two sides of the first translation assembly, and one end of the elastic pulling piece extends into the upper part of the synchronous belt of the first translation assembly.

5. The separator placing device according to claim 2, wherein the front blocking shaft driving assembly comprises a first cylinder and a swing arm, the first cylinder is fixed on the frame and located at one side of the first translation assembly, an output end of the first cylinder is movably connected with one end of the swing arm, and the other end of the swing arm is fixedly connected with one end of the front blocking shaft.

6. The separator placing device according to claim 1, wherein the box expansion assembly is provided with a lifting cylinder, a mounting frame, a box expansion cylinder, a box expansion plate, a guide pillar and a sliding seat; the box body conveying device is characterized in that the sliding seats are provided with a plurality of guide pillars which are distributed on two sides of the box body conveying component, each sliding seat is provided with a guide pillar which is connected with the sliding seat in a vertical direction in a sliding mode, the upper end of the box body conveying component is provided with an installation frame which is connected with the guide pillars together, each sliding seat is fixedly provided with a lifting cylinder, a piston rod of each lifting cylinder is connected with the installation frame, the inner sides of four side frames of the installation frame are fixedly provided with a box expansion cylinder, the output end of each box expansion cylinder is provided with a box expansion plate, and the box expansion plates reciprocate between the center of the installation frame and the side frame of the installation frame under the action of the box expansion cylinders.

7. The separator placing device according to claim 1, wherein the removing member further comprises a base plate, a guide rail, a synchronous belt and a driving mechanism, the base plate is located at a lower portion of the sliding table, the guide rail is provided with two parallel guide rails mounted on the base plate, the bottom of the sliding table is slidably connected with the guide rail through a sliding sleeve, the synchronous belt is fixedly connected with the sliding sleeve, and the driving mechanism drives the synchronous belt to drive the sliding table to reciprocate linearly.

8. The partition placing device according to claim 7, wherein the first sucking assembly, the second sucking assembly and the third sucking assembly each comprise a support and a sucking disc, the supports of the first sucking assembly and the third sucking assembly are fixed on the sliding table, the swing mechanism is provided with a swing cylinder, the support of the second sucking assembly is connected with a rotating shaft of the swing cylinder penetrating through the sliding table, and each support is provided with a plurality of sucking discs.

9. The separator placing device according to claim 1, wherein the lifting translation mechanism comprises a second translation assembly and a lifting assembly, the second translation assembly is provided with a driving mechanism, rollers, a synchronous belt, a guide rail and a sliding sleeve, the rollers are respectively arranged at two ends of the second translation assembly, the synchronous belt is connected between the two rollers, the driving mechanism drives one of the rollers to rotate, the lower end of the mounting seat is connected to the guide rail through the sliding sleeve, and the synchronous belt is fixedly connected with the mounting seat; the lifting assembly is installed on the upper portion of the installation seat.

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