CN113859679B - Efficient carton instruction placing equipment - Google Patents

Abstract

The invention relates to the field of cartons, in particular to efficient carton instruction placing equipment. The technical problems of the invention are as follows: an efficient carton instruction placement apparatus is provided. The technical implementation scheme of the invention is as follows: a high-efficiency carton instruction placing device comprises a first bottom plate, a first bottom foot, a second bottom plate, a third bottom foot and the like; a first bottom foot is connected below the first bottom plate. The invention achieves the effects that the instruction book is efficiently placed on the paper box with four holes, the instruction book is placed in the middle of the four paper blocks immediately after the four paper blocks are lifted, and then the four paper blocks are simultaneously pressed on the instruction book, so that the process is continuous and efficient.

Description

Efficient carton instruction placing equipment

Technical Field

The invention relates to the field of cartons, in particular to efficient carton instruction placing equipment.

Background

At present, in order to save the space for placing the instruction book, four approximately rectangular holes are formed in the middle of one side of the paper box, four paper blocks with holes are still connected with the paper box, the connection parts are elastic after the specified process treatment, then the instruction book is placed in the middle of the four paper blocks, the instruction book can be fixed, the operation of placing the instruction book at present is all performed manually, the instruction book is placed in the middle after the paper block is lifted up manually, and finally the paper block is pressed; but the paper piece often can block in the hole, and the manual work is difficult to bare-handed take out the paper piece from the hole, and needs a piece to press when the manual work presses the paper piece after having placed the description, and the process is loaded down with trivial details consuming time and power.

In summary, there is a need to develop a high efficiency carton instruction placement apparatus that overcomes the above-described problems.

Disclosure of Invention

In order to overcome the defect that in the prior art, in order to save the space for placing the instruction book, four approximately rectangular holes are formed in the middle of one side of the paper box, four paper blocks with holes are still connected with the paper box, the connection parts are elastic after the specified process treatment, then the instruction book is placed in the middle of the four paper blocks, the instruction book can be fixed, the operation of placing the instruction book at present is all performed manually, the instruction book is placed in the middle after the paper block is lifted up manually, and finally the paper block is pressed; however, the paper block is often clamped in the hole, the paper block is difficult to be taken out from the hole by hands, and the paper block is required to be pressed by one block when being manually pressed after the specification is placed, so that the technical problem of the invention is that the process is tedious, time-consuming and labor-consuming: an efficient carton instruction placement apparatus is provided.

The technical implementation scheme of the invention is as follows: a high efficiency carton instruction placement apparatus includes a first base plate, a first foot, a second base plate, a third foot, a fourth foot, a tool box, a placement unit, and a pushing unit; a first bottom foot is connected below the first bottom plate; a second bottom foot is connected below the first bottom plate; the side surface of the first bottom plate is provided with a second bottom plate; a tool box is connected above the first bottom plate; a third footing is connected below the second bottom plate; a fourth footing is connected below the second bottom plate; a placing unit is connected above the first bottom plate; the placing unit is used for placing the specification into the middle of the four paper blocks while placing the four paper blocks on the paperboard; an pushing unit is connected above the second bottom plate; the pushing unit is used for pressing the four support blocks on the instruction book, so that the structure is firmer.

Optionally, the feeding device further comprises a feeding unit, wherein the feeding unit comprises a first bracket, a second bracket, a third bracket, a fourth bracket, a first electric sliding rail, a first electric sliding block, a push plate and a material platform; a second bracket is fixedly connected above the first bottom plate; the second bottom plate is fixedly connected with a first bracket; the second bottom plate is fixedly connected with a third bracket; the second bottom plate is fixedly connected with a fourth bracket; the second bracket is fixedly connected with a material table; the first bracket is fixedly connected with the material table; the third bracket is fixedly connected with a first electric sliding rail; the fourth bracket is fixedly connected with the first electric sliding rail; the first electric sliding rail is connected with a first electric sliding block in a sliding manner; the first electric sliding block is fixedly connected with a push plate; the push plate is connected with the material platform in a sliding way.

Optionally, the placing unit includes a fifth bracket, a sixth bracket, a seventh bracket, an eighth bracket, a first motor, a first transmission rod, a gear, a first rack, a second rack, a first straight slide block, a first straight slide rail, a first connecting frame, a push block, a second electric slide rail, a second electric slide block, a second straight slide rail, a second straight slide block, a second connecting frame, a material frame, a third connecting frame, a second motor, a second transmission rod, a sliding sleeve, a sliding plate, a supporting plate and a torsion spring; a fifth bracket is fixedly connected above the first bottom plate; a sixth bracket is fixedly connected above the first bottom plate; a seventh bracket is fixedly connected above the first bottom plate; an eighth bracket is fixedly connected above the first bottom plate; the fifth bracket is fixedly connected with a first motor; the sixth bracket is fixedly connected with a first straight sliding rail; the opposite surfaces of the seventh bracket and the eighth bracket are fixedly connected with a second electric sliding rail; the first motor output shaft is fixedly connected with a first transmission rod; the first transmission rod is fixedly connected with a gear; the gear is meshed with the second rack; the side surface of the gear is provided with a first rack; the first rack is fixedly connected with a third connecting frame; the second rack is fixedly connected with a first straight sliding block and a first connecting frame; the first straight sliding block is connected with the first straight sliding rail in a sliding way; the first connecting frame is connected with four groups of pushing blocks in a sliding way; each group of second electric sliding rails is connected with a second electric sliding block in a sliding manner; each group of second electric sliding blocks is fixedly connected with a second straight sliding rail and a second connecting frame; each group of second straight sliding rails is connected with a second straight sliding block in a sliding manner; each group of second straight sliding blocks is fixedly connected with a third connecting frame; each group of second connecting frames is fixedly connected with a material frame; the material frame is rotationally connected with two groups of support plates through a rotating shaft; the material frame is fixedly connected with four groups of torsion springs; each group of supporting plates is fixedly connected with two groups of torsion springs; the third connecting frame is fixedly connected with two groups of second motors; each group of second motor output shafts are fixedly connected with a second transmission rod; each group of second transmission rods is fixedly connected with a sliding sleeve; each group of sliding sleeves is connected with a sliding plate through a spring.

Optionally, the pushing unit comprises a ninth bracket, a third electric sliding rail, a third electric sliding block, a fourth connecting frame, a first polished rod, an electric push rod, a connecting plate, a first connecting rod, a pushing block, a second polished rod, a second connecting rod and a roller; a ninth bracket is fixedly connected above the second bottom plate; the ninth bracket is connected with a third electric sliding rail in a sliding way; the third electric sliding rail is connected with a third electric sliding block in a sliding way; the third electric sliding block is fixedly connected with a fourth connecting frame; the fourth connecting frame is fixedly connected with a first polished rod and an electric push rod; the first polished rod is connected with a connecting plate in a sliding way; the first polish rod is fixedly connected with four groups of second polish rods; the first polished rod is rotationally connected with four groups of second connecting rods through a rotating shaft; the electric push rod is fixedly connected with the connecting plate; the connecting plate is rotationally connected with four groups of first connecting rods through a rotating shaft; each group of first connecting rods is rotationally connected with a pushing block through a rotating shaft; each group of first connecting rods are slidably connected with the second connecting rods through rotating shafts; each group of pushing blocks are connected with the second polish rod in a sliding way; each group of pushing blocks is connected with a plurality of groups of idler wheels through a rotating shaft.

Optionally, four groups of rectangular hole grooves are formed in the material table.

Optionally, four groups of pushing blocks are arranged right below four groups of hole grooves on the material table.

Optionally, a spring is arranged in the sliding sleeve and connected with the sliding plate.

Optionally, the material frame is arranged in an arc shape near two side surfaces of the sliding plate.

Optionally, the slide plate end is provided in an arc shape.

Optionally, a chute is formed on the first connecting rod.

The beneficial effects of the invention are as follows: (1) In order to solve the problem that in the prior art, four approximately rectangular holes are formed in the middle of one side of a packaging paper box for saving the space for placing the instruction book, the four paper blocks with the holes are still connected with the paper box, the connection parts are elastic after the specified process treatment, then the instruction book is placed in the middle of the four paper blocks, the instruction book can be fixed, the operation for placing the instruction book at present is all performed manually, the instruction book is required to be lifted up manually, then placed in the middle, and finally pressed; however, the paper blocks are often clamped in the holes, so that the paper blocks are difficult to take out from the holes by hands, and the paper blocks are required to be pressed one by one when being manually pressed after the instruction book is placed, and the problems of tedious process, time consumption and labor consumption are solved;

(2) The method comprises the steps of designing a feeding unit, a placing unit and a pushing unit, firstly placing high-efficiency paper box instruction placing equipment to a position to be used when the carton instruction placing equipment is used, adjusting the position of a first bottom plate through a first bottom foot and a second bottom foot, adjusting the position of a second bottom plate through a third bottom foot and a fourth bottom foot, enabling the upper surfaces of the first bottom plate and the second bottom plate to be parallel and horizontal, externally connecting a power supply, firstly stacking the instruction in the placing unit, then placing the paper box which is not folded yet in the feeding unit by a worker, controlling and starting the feeding unit to transfer the paper box to a designated position, then controlling the placing unit to start rapidly placing the instruction in the middle of four paper blocks, then controlling the pushing unit to start pushing the paper blocks on the instruction, finally controlling the feeding unit to start pushing the processed paper box out again, and collecting the processed paper box by the worker, and placing a plurality of fittings for debugging machines in a tool box;

(3) The paper box has the advantages that the paper box with four holes is efficiently arranged on the paper box with the four holes, the paper box is immediately arranged in the middle of the four paper blocks after the four paper blocks are lifted, then the four paper blocks are simultaneously pressed on the paper box, and the process is continuous and efficient.

Drawings

FIG. 1 is a schematic view of a first construction of the present invention;

FIG. 2 is a schematic diagram of a second embodiment of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic diagram of a first structure of a feeding unit according to the present invention;

FIG. 5 is a schematic diagram of a second structure of the feeding unit of the present invention;

FIG. 6 is a schematic view of a first construction of the placement unit according to the present invention;

FIG. 7 is a schematic view of a second construction of the placement unit of the present invention;

FIG. 8 is a top view of the placement unit of the present invention;

FIG. 9 is a schematic view showing a first partial structure of the placement unit according to the present invention;

FIG. 10 is a schematic view of a second partial structure of the placement unit of the present invention;

FIG. 11 is a schematic view of the structure of the pressing unit of the present invention;

fig. 12 is a schematic view showing a partial structure of the pressing unit of the present invention.

The reference symbols in the drawings: 1: first bottom plate, 2: first footing, 3: second footing, 4: second bottom plate, 5: third footing, 6: fourth foot, 7: tool box, 201: first bracket, 202: second support, 203: third support, 204: fourth rack, 205: first electric slide, 206: first power slider, 207: push plate, 208: material platform, 301: fifth stand, 302: sixth stand, 303: seventh support, 304: eighth stand, 305: first motor, 306: first transfer lever, 307: gear, 308: first rack, 309: second rack, 3010: first straight slider, 3011: first straight slide, 3012: first connection frame, 3013: pushing block, 3014: second electric slide, 3015: second power slider, 3016: second straight slide, 3017: second straight slider, 3018: second link, 3019: frame, 3020: third link, 3021: second motor, 3022: second transfer bar, 3023: sliding sleeve, 3024: skateboard, 3025: support plate, 3026: torsion spring, 401: ninth stand, 402: third electric slide rail, 403: third motorized slider, 404: fourth link, 405: first polished rod, 406: electric putter, 407: connection plate, 408: first link, 409: pushing block 4010: second polish rod, 4011: second link, 4012: and a roller.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Examples

A high efficiency carton instruction placement apparatus, as shown with reference to fig. 1-3, comprising a first base plate 1, a first foot 2, a second foot 3, a second base plate 4, a third foot 5, a fourth foot 6, a tool box 7, a placement unit and a pushing unit; a first bottom foot 2 is connected below the first bottom plate 1; a second bottom foot 3 is connected below the first bottom plate 1; the side surface of the first bottom plate 1 is provided with a second bottom plate 4; a tool box 7 is connected above the first bottom plate 1; a third foot 5 is connected below the second bottom plate 4; a fourth foot 6 is connected below the second bottom plate 4; a placing unit is connected above the first bottom plate 1; the placing unit is used for placing the specification into the middle of the four paper blocks while placing the four paper blocks on the paperboard; a pushing unit is connected above the second bottom plate 4; the pushing unit is used for pressing the four support blocks on the instruction book, so that the structure is firmer.

When the carton specification placing device is used, firstly, high-efficiency carton specification placing equipment is placed at a position to be used, the position of a first bottom plate 1 is adjusted through a first bottom foot 2 and a second bottom foot 3, the position of a second bottom plate 4 is adjusted through a third bottom foot 5 and a fourth bottom foot 6, the upper surfaces of the first bottom plate 1 and the second bottom plate 4 are parallel and horizontal, then a power supply is externally connected, firstly, the specifications are stacked and placed in a placing unit, then a worker places the unfolded cartons in a feeding unit, the feeding unit is controlled to be started to transfer the cartons to a designated position, then the placing unit is controlled to start to rapidly place the specifications in the middle of four paper blocks, then a pushing unit is controlled to start pushing the paper blocks on the specifications, finally, the feeding unit is controlled again to start pushing the processed cartons out, the processed cartons are collected by the worker, and a tool box 7 is placed in a plurality of hardware fittings for debugging machines; the invention realizes that the instruction book is efficiently placed on the paper box with four holes, the instruction book is placed in the middle of the four paper blocks immediately after the four paper blocks are lifted, and then the four paper blocks are simultaneously pressed on the instruction book, so that the process is coherent and efficient.

Referring to fig. 4-5, the feeding unit further comprises a feeding unit, wherein the feeding unit comprises a first bracket 201, a second bracket 202, a third bracket 203, a fourth bracket 204, a first electric sliding rail 205, a first electric sliding block 206, a push plate 207 and a material platform 208; a second bracket 202 is fixedly connected above the first bottom plate 1; the second bottom plate 4 is fixedly connected with a first bracket 201; the second bottom plate 4 is fixedly connected with a third bracket 203; the second bottom plate 4 is fixedly connected with a fourth bracket 204; the second bracket 202 is fixedly connected with a material table 208; the first bracket 201 is fixedly connected with a material platform 208; the third bracket 203 is fixedly connected with a first electric sliding rail 205; the fourth bracket 204 is fixedly connected with a first electric sliding rail 205; the first electric sliding rail 205 is connected with a first electric sliding block 206 in a sliding manner; the first electric sliding block 206 is fixedly connected with a push plate 207; the push plate 207 is slidably coupled to the material stage 208.

When the automatic paper box pushing device works, a worker places an unfolded paper box at one non-hole end of a material platform 208 supported by a first support 201 and a second support 202, then controls a first electric sliding rail 205 supported by a third support 203 and a fourth support 204 to start to drive a first electric sliding block 206 to slide, the first electric sliding block 206 drives a push plate 207 to slide on the material platform 208, the push plate 207 drives the paper box to move, the four holes on the paper box move to be opposite to the four holes on the material platform 208, then controls a placing unit and a pushing unit to start placing a specification, then controls the push plate 207 to start a paper box pushing material platform 208 on which the specification is placed again, and the paper box is collected by the worker; the unit realizes loading and unloading of the paper boxes.

Referring to fig. 6 to 10, the placement unit includes a fifth bracket 301, a sixth bracket 302, a seventh bracket 303, an eighth bracket 304, a first motor 305, a first transmission rod 306, a gear 307, a first rack 308, a second rack 309, a first straight slide 3010, a first straight slide 3011, a first connection frame 3012, a push block 3013, a second electric slide 3014, a second electric slide 3015, a second straight slide 3016, a second straight slide 3017, a second connection frame 3018, a material frame 3019, a third connection frame 3020, a second motor 3021, a second transmission rod 3022, a sliding sleeve 3023, a sliding plate 3024, a support plate 3025, and a torsion spring 3026; a fifth bracket 301 is fixedly connected above the first bottom plate 1; a sixth bracket 302 is fixedly connected above the first bottom plate 1; a seventh bracket 303 is fixedly connected above the first bottom plate 1; an eighth bracket 304 is fixedly connected above the first bottom plate 1; the fifth bracket 301 is fixedly connected with a first motor 305; the sixth bracket 302 is fixedly connected with a first straight slide 3011; the opposite surfaces of the seventh bracket 303 and the eighth bracket 304 are fixedly connected with a second electric sliding rail 3014; the output shaft of the first motor 305 is fixedly connected with a first transmission rod 306; the first transmission rod 306 is fixedly connected with a gear 307; the gear 307 is meshed with a second rack 309; the gear 307 is provided with a first rack 308 on the side; the first rack 308 is fixedly connected with a third connecting frame 3020; the second rack 309 is fixedly connected with a first straight slide 3010 and a first connecting frame 3012; the first straight sliding block 3010 is connected with a first straight sliding rail 3011 in a sliding manner; the first connecting frame 3012 is connected with four groups of pushing blocks 3013 in a sliding manner; each group of second electric sliding rails 3014 is slidably connected with a second electric sliding block 3015; each group of second electric slide blocks 3015 is fixedly connected with a second straight slide rail 3016 and a second connecting frame 3018; each group of second straight slide rails 3016 is connected with a second straight slide block 3017 in a sliding way; each group of second straight sliding blocks 3017 is fixedly connected with a third connecting frame 3020; each group of second connecting frames 3018 is fixedly connected with a material frame 3019; the material frame 3019 is rotatably connected with two groups of support plates 3025 through a rotating shaft; the material frame 3019 is fixedly connected with four groups of torsion springs 3026; each group of support plates 3025 is fixedly connected with two groups of torsion springs 3026; the third connecting frame 3020 is fixedly connected with two groups of second motors 3021; the output shaft of each group of second motors 3021 is fixedly connected with a second transmission rod 3022; each group of second transmission rods 3022 is fixedly connected with a sliding sleeve 3023; each set of sliding sleeves 3023 is connected to a sliding plate 3024 by springs.

After four holes on the carton are opposite to four holes on the material table 208, the second electric slide rails 3014 on the seventh bracket 303 and the eighth bracket 304 are simultaneously started to drive the second electric slide blocks 3015 to slide, the second electric slide blocks 3015 drive the second straight slide rails 3016 and the second connecting frame 3018 and connected parts thereof to move until the first racks 308 are meshed with the gears 307, then the first motor 305 supported by the fifth bracket 301 is controlled to start to drive the first transmission rods 306 to drive the gears 307 to rotate, the gears 307 drive the first racks 308 and the second racks 309 to move, the movement directions of the first racks 308 are opposite, and the second racks 309 move upwards; the second rack 309 moves upwards to drive the first straight sliding block 3010 to slide on the first straight sliding rail 3011 supported by the sixth bracket 302, and is matched with the first straight sliding rail 3011 to move, the second rack 309 moves upwards to drive the first connecting frame 3012 to drive the pushing block 3013, the pushing block 3013 pushes out paper blocks clamped in holes to be in a state of being vertical to a paper box, meanwhile, the first rack 308 moves downwards to drive the third connecting frame 3020 to move downwards, the third connecting frame 3020 drives the second straight sliding block 3017 to slide downwards on the second straight sliding rail 3016 to perform a matched function, the third connecting frame 3020 also drives the two groups of sliding plates 3024 to move downwards, the specifications are stacked in advance and placed in the material frame 3019, the two groups of supporting plates 3025 below are supported by the two groups of supporting plates 3025, and a sliding plate 3024 is arranged between the lowest specification and the second specification, so that the supporting plates 3025 rotate around a rotating shaft connected with the material frame 3019 to be vertical to the material frame 3019, and the specifications are separated from the middle of the four specifications to be placed in the middle of the material frame 3019; then, the first motor 305 is controlled to rotate reversely to reset the connected parts, when the slide plate 3024 moves upwards to reset, the second motor 3021 is controlled to rotate to drive the second transmission rod 3022 to drive the slide sleeve 3023 to rotate, the slide sleeve 3023 drives the slide plate 3024 to rotate, the material frame 3019 is arranged in an arc shape on two side surfaces close to the slide plate 3024, when the slide plate 3024 rotates to be in contact with the side surface of the material frame 3019, the slide plate 3024 is compressed, when the slide plate 3024 rotates to be in horizontal contact with the material frame 3019, the slide plate 3024 is ejected and inserted between the lowest part of the specification and the second part due to the spring force, so that the reset of the slide plate 3024 is completed, the support plate 3025 is reset due to the action of the torsion spring 3026, and then the second electric slide rail 3014 is controlled to be started to drive the second electric slide block 3015 to slide backwards to reset the connected parts; the unit enables the specification to be placed in the middle of the paper block.

Referring to fig. 11 to 12, the pushing unit includes a ninth bracket 401, a third electric sliding rail 402, a third electric sliding block 403, a fourth connecting frame 404, a first polished rod 405, an electric push rod 406, a connecting plate 407, a first connecting rod 408, a pushing block 409, a second polished rod 4010, a second connecting rod 4011 and a roller 4012; a ninth bracket 401 is fixedly connected above the second bottom plate 4; the ninth bracket 401 is slidably connected with a third electric sliding rail 402; a third electric sliding block 403 is slidably connected to the third electric sliding rail 402; the third electric slide block 403 is fixedly connected with a fourth connecting frame 404; the fourth connecting frame 404 is fixedly connected with a first polish rod 405 and an electric push rod 406; the first polished rod 405 is connected with a connecting plate 407 in a sliding way; the first polish rod 405 is fixedly connected with four groups of second polish rods 4010; the first polished rod 405 is rotatably connected with four groups of second connecting rods 4011 through a rotating shaft; the electric push rod 406 is fixedly connected with the connecting plate 407; the connecting plate 407 is rotatably connected with four groups of first connecting rods 408 through a rotating shaft; each group of first connecting rods 408 is rotatably connected with a pushing block 409 through a rotating shaft; each group of first connecting rods 408 is slidably connected with the second connecting rod 4011 through a rotating shaft; each group of pushing blocks 409 is slidably connected with a second polish rod 4010; each group of pushing blocks 409 is rotatably connected with a plurality of groups of rollers 4012 through a rotating shaft.

After the instruction book is placed, the third electric sliding rail 402 supported by the ninth support 401 is controlled to start to drive the third electric sliding block 403 to slide downwards, the third electric sliding block 403 drives the fourth connecting frame 404 and parts connected with the fourth connecting frame to move downwards, the fourth connecting frame is stopped when the lower surface of the pushing block 409 contacts with a paper box, then the electric push rod 406 is controlled to start to drive the connecting plate 407 to slide on the first polished rod 405 in opposite directions, the connecting plate 407 drives one ends of the four groups of first connecting rods 408 to move downwards, the other ends of the four groups of first connecting rods 408 drive the four groups of pushing blocks 409 to slide on the four groups of second polished rods 4010 in the direction close to the first polished rod 405, in the sliding process, the four groups of second connecting rods 4011 slide on the four groups of first connecting rods 408 through rotating shafts, and the four groups of pushing blocks 409 are pressed on the instruction book when matched to move, so that the instruction book is firmer and is not easy to drop, and the lower part of the pushing block 409 is connected with a plurality of groups of rollers 4012 through rotating shafts because the surface of the paper box possibly has uneven phenomenon; the unit realizes the pressing of the paper blocks after the specification is placed.

Four groups of rectangular hole slots are formed in the material table 208.

Facilitating upward movement of the push block 3013.

Four sets of pushing blocks 3013 are disposed directly beneath four sets of slots on the table 208.

The pushing block 3013 is convenient to push the paper block out of the hole slot on the carton.

A spring is arranged in the sliding sleeve 3023 and is connected with the sliding plate 3024.

So that slide 3024 expands and contracts within sliding sleeve 3023.

The frame 3019 is curved near both sides of the slide 3024.

The slide 3024 is conveniently inserted between the lowermost one of the specifications and the second book in a telescopic movement.

The end of the slide 3024 is arranged in an arc shape.

Preventing damage to the instruction book.

The first link 408 is provided with a chute.

Facilitating sliding of the second link 4011.

While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims (8)

1. A high efficiency carton instruction placement apparatus comprising a first base plate, a first foot, a second base plate, a third foot, a fourth foot, and a tool box; a first bottom foot is connected below the first bottom plate; a second bottom foot is connected below the first bottom plate; the side surface of the first bottom plate is provided with a second bottom plate; a tool box is connected above the first bottom plate; a third footing is connected below the second bottom plate; a fourth footing is connected below the second bottom plate; the device is characterized by further comprising a placing unit and a pushing unit; a placing unit is connected above the first bottom plate; four approximately rectangular holes are formed in the middle of one side of the paper box, and four paper blocks with holes are still connected with the paper box; the placing unit is used for pushing out the paper blocks clamped in the holes to be perpendicular to the paper box, and placing the instruction book among the four paper blocks; an pushing unit is connected above the second bottom plate; the pushing unit is used for pressing four paper blocks on the instruction book, so that the paper is firmer;

the placing unit comprises a fifth bracket, a sixth bracket, a seventh bracket, an eighth bracket, a first motor, a first transmission rod, a gear, a first rack, a second rack, a first straight sliding block, a first straight sliding rail, a first connecting frame, a pushing block, a second electric sliding rail, a second electric sliding block, a second straight sliding rail, a second straight sliding block, a second connecting frame, a material frame, a third connecting frame, a second motor, a second transmission rod, a sliding sleeve, a sliding plate, a supporting plate and a torsion spring; a fifth bracket is fixedly connected above the first bottom plate; a sixth bracket is fixedly connected above the first bottom plate; a seventh bracket is fixedly connected above the first bottom plate; an eighth bracket is fixedly connected above the first bottom plate; the fifth bracket is fixedly connected with a first motor; the sixth bracket is fixedly connected with a first straight sliding rail; the opposite surfaces of the seventh bracket and the eighth bracket are fixedly connected with a second electric sliding rail; the first motor output shaft is fixedly connected with a first transmission rod; the first transmission rod is fixedly connected with a gear; the gear is meshed with the second rack; the side surface of the gear is provided with a first rack; the first rack is fixedly connected with a third connecting frame; the second rack is fixedly connected with a first straight sliding block and a first connecting frame; the first straight sliding block is connected with the first straight sliding rail in a sliding way; the first connecting frame is connected with four groups of pushing blocks in a sliding way; each group of second electric sliding rails is connected with a second electric sliding block in a sliding manner; each group of second electric sliding blocks is fixedly connected with a second straight sliding rail and a second connecting frame; each group of second straight sliding rails is connected with a second straight sliding block in a sliding manner; each group of second straight sliding blocks is fixedly connected with a third connecting frame; each group of second connecting frames is fixedly connected with a material frame; the material frame is rotationally connected with two groups of support plates through a rotating shaft; the material frame is fixedly connected with four groups of torsion springs; each group of supporting plates is fixedly connected with two groups of torsion springs; the third connecting frame is fixedly connected with two groups of second motors; each group of second motor output shafts are fixedly connected with a second transmission rod; each group of second transmission rods is fixedly connected with a sliding sleeve; each group of sliding sleeves is connected with a sliding plate through a spring;

the pushing unit comprises a ninth bracket, a third electric sliding rail, a third electric sliding block, a fourth connecting frame, a first polished rod, an electric push rod, a connecting plate, a first connecting rod, a pushing block, a second polished rod, a second connecting rod and a roller; a ninth bracket is fixedly connected above the second bottom plate; the ninth bracket is connected with a third electric sliding rail in a sliding way; the third electric sliding rail is connected with a third electric sliding block in a sliding way; the third electric sliding block is fixedly connected with a fourth connecting frame; the fourth connecting frame is fixedly connected with a first polished rod and an electric push rod; the first polished rod is connected with a connecting plate in a sliding way; the first polish rod is fixedly connected with four groups of second polish rods; the first polished rod is rotationally connected with four groups of second connecting rods through a rotating shaft; the electric push rod is fixedly connected with the connecting plate; the connecting plate is rotationally connected with four groups of first connecting rods through a rotating shaft; each group of first connecting rods is rotationally connected with a pushing block through a rotating shaft; each group of first connecting rods are slidably connected with the second connecting rods through rotating shafts; each group of pushing blocks are connected with the second polish rod in a sliding way; each group of pushing blocks is connected with a plurality of groups of idler wheels through a rotating shaft.

2. The high efficiency carton instruction placement apparatus of claim 1, further comprising a loading unit comprising a first bracket, a second bracket, a third bracket, a fourth bracket, a first motorized slide, a push plate, and a table; a second bracket is fixedly connected above the first bottom plate; the second bottom plate is fixedly connected with a first bracket; the second bottom plate is fixedly connected with a third bracket; the second bottom plate is fixedly connected with a fourth bracket; the second bracket is fixedly connected with a material table; the first bracket is fixedly connected with the material table; the third bracket is fixedly connected with a first electric sliding rail; the fourth bracket is fixedly connected with the first electric sliding rail; the first electric sliding rail is connected with a first electric sliding block in a sliding manner; the first electric sliding block is fixedly connected with a push plate; the push plate is connected with the material platform in a sliding way.

3. A high efficiency carton instruction placement apparatus according to claim 2 wherein the material table is provided with four sets of rectangular slots.

4. A high efficiency carton instruction placement apparatus according to claim 1 wherein four sets of push blocks are disposed on the table directly beneath four sets of aperture slots.

5. A high efficiency carton instruction placement apparatus according to claim 1 wherein springs are disposed within the sliding sleeve and connected to the slide.

6. A high efficiency carton instruction placement apparatus according to claim 1 wherein the material frame is arcuate on both sides adjacent the slide.

7. A high efficiency carton instruction placement apparatus according to claim 1 wherein the slide ends are arranged in an arc.

8. A high efficiency carton instruction placement apparatus according to claim 1 wherein the first link is slotted.