CN111994675B

CN111994675B - Efficient packaging equipment

Info

Publication number: CN111994675B
Application number: CN202010821908.4A
Authority: CN
Inventors: 沈志森
Original assignee: SHENZHEN HENGLITIAN TECHNOLOGY CO LTD
Current assignee: SHENZHEN HENGLITIAN TECHNOLOGY CO LTD
Priority date: 2020-08-15
Filing date: 2020-08-15
Publication date: 2021-05-04
Anticipated expiration: 2040-08-15
Also published as: CN111994675A

Abstract

The application relates to a high-efficient equipment for packing belongs to cardboard equipment for packing technical field, and it includes: a high efficiency packaging apparatus comprising: a rack disposed in a work environment: and install the cross cutting machine organism in the frame, wherein, the top position department of cross cutting machine organism is provided with the plummer that is used for holding the cardboard, is provided with the calibration subassembly that is used for adjusting corrugated paper cardboard well in plummer position department, and the calibration subassembly includes: the containing plate is movably arranged on the bearing platform; and the movable clamping plate is arranged on the containing plate and used for clamping the corrugated paper board, wherein the containing plate is movably arranged with the bearing platform through being provided with a first driving assembly, and the clamping plate is movably arranged with the containing plate through being provided with a second driving assembly. In order to accurately carry out the cross cutting coining to corrugated container board, this application provides a high-efficient equipment for packing, can adapt multiple specification and size's corrugated container board, can improve the quality of cross cutting coining to improve the quality of product.

Description

Efficient packaging equipment

Technical Field

The application relates to the field of paperboard packaging equipment, in particular to efficient packaging equipment.

Background

The die cutting process is the most commonly used process for packaging printed matters, namely, the forming process of rolling and cutting the printed matters or other ring-packed blanks into required shapes or cutting marks by using a die cutting knife to combine into a die cutting plate according to patterns of product design requirements under the action of pressure. The indentation process is to press line marks on the plate material under the action of pressure by using a line pressing knife or a line pressing die, or to bend and form the plate material at a preset position by using a line rolling wheel. Generally, the die cutting and indentation process is a process of combining a die cutting knife and a line pressing knife in the same template and simultaneously performing die cutting and indentation processing on a die cutting machine, which is referred to as die cutting for short. Introduction of the technology the main technological process of die cutting and indentation is as follows: the method comprises the steps of printing, adjusting pressure → determining a gauge → pasting a base material auxiliary material → testing pressure and die cutting → formal die cutting indentation → waste clearing → finished product rolling or sheet cutting → counting and packaging.

The die cutting machine has the working principle that a die cutting knife, a steel knife, a hardware die and a steel wire (or a template carved by a steel plate) are utilized, and a printing product or a paperboard is rolled and cut into a certain shape by applying a certain pressure through a printing plate. If the entire print is to be die cut into individual graphic products, this is called die cutting; if the steel wire is used for pressing marks or leaving bent groove marks on a printed product, the marks are called indentations; if the male template and the female template are utilized, patterns or characters with a three-dimensional effect are thermoprinted on the surface of a printed product by heating the molds to a certain temperature, which is called gold stamping; if one substrate is overlaid on another substrate is called lamination; the rest parts except the certified products are removed and called waste discharge; the above may be collectively referred to as die cutting techniques.

But some current cross cutting machines often can appear because corrugated board size specification is inconsistent when carrying out corrugated container board coining, and make can not adjust well when carrying out the coining, rely on the staff experience to carry out the coining, make the coining can appear carelessly neglected and neglected, cause product quality not to pass a problem many times.

Disclosure of Invention

In order to accurately carry out the cross cutting coining to corrugated container board, this application provides a high-efficient equipment for packing, can adapt multiple specification and size's corrugated container board, can improve the quality of cross cutting coining to improve the quality of product.

The application provides a high-efficient equipment for packing adopts following technical scheme:

a high efficiency packaging apparatus comprising: a rack disposed in a work environment: and install cross cutting machine organism in the frame, wherein, the top position department of cross cutting machine organism is provided with the plummer that is used for holding the cardboard the plummer position department is provided with the calibration subassembly that is used for adjusting corrugated paper cardboard well, the calibration subassembly includes: the containing plate is movably arranged on the bearing table; and the activity sets up hold on the board, be used for the splint of centre gripping corrugated paper cardboard, wherein, hold the board through be provided with first drive assembly with the plummer sets up that moves about, splint through be provided with second drive assembly with hold the board and move about the setting.

Through adopting the above technical scheme, carry out the convenient subsequent packing of cross cutting to corrugated container board through the cross cutting machine organism that sets up, setting through the calibration subassembly, can carry out centre gripping and calibration location to corrugated container board, make things convenient for cross cutting machine to cut or impress the cardboard, can adjust the setting according to the size length of cardboard, width or thickness, effectively and carry out the centre gripping transportation steadily, thereby can improve the precision of cross cutting machine work, make the quality of cardboard obtain improving, when having reduced the cardboard because cutting or impress, can not fix a position well and carry out work and cause quality problems to appear.

Preferably, the first drive assembly comprises: the sliding chute is arranged on the table top of the bearing table; the sliding block is connected in the sliding groove in a sliding manner; and the connecting seat is fixed at the top of the sliding block, the connecting seat and the bottom of the containing plate are fixedly arranged, and the sliding block is driven by the first driving part and moves along the horizontal extending direction of the sliding groove.

Through adopting above-mentioned technical scheme, through the first drive division among the first drive assembly as power, rely on the cooperation structure of slider, spout again for the connecting seat can carry out the displacement along the horizontal extending direction of spout, and the top of connecting seat with hold the fixed setting mutually, thereby can drive and hold the board and carry out the displacement along the horizontal extending direction of spout, because splint activity sets up on holding the board, can drive corrugated container board effectively and transmit the displacement.

Preferably, the first driving part includes: the first motor is arranged in the sliding groove, and the output shaft points to the direction consistent with the horizontal extension direction of the sliding groove; and one end of the screw rod is assembled on the first motor output shaft, and the other end of the screw rod is rotatably connected to the inner wall of the sliding groove, wherein the sliding block is in threaded through connection with the screw rod.

Through adopting above-mentioned technical scheme, through the first motor in the first drive division and threaded matched structure, screw rod and slider looks threaded connection to, the slider slides with the spout mutually and is connected, makes the drive of first motor can drive the screw rod and rotate, and the rotation of screw rod can drive the slider and carry out the displacement along the horizontal extending direction of spout, and the drive holds the board effectively and carries out the displacement, can drive corrugated container board then and transmit the displacement.

Preferably, the second drive assembly comprises: two sliding grooves symmetrically formed in the bearing surface at the top of the containing plate; the sliding block is connected in the sliding groove in a sliding mode; and the mounting seat is arranged at the top of the sliding block, a second driving part is arranged in the sliding groove and used for driving the sliding block to move along the horizontal extending direction of the sliding groove, the clamping plates are symmetrically and movably arranged on the two opposite mounting seats, and a third driving part is arranged on the mounting seats and used for driving the clamping plates to clamp the corrugated board on the two mounting seats.

Through adopting above-mentioned technical scheme, the mating structure through sliding tray and sliding block in the second drive assembly, drive through the second drive division, make the sliding block can carry out the displacement along the horizontal extending direction of sliding tray, can make the mount pad can carry out the same displacement, and, splint activity sets up on the mount pad, drive through the third drive division, thereby can drive splint and carry out direction of motion and sliding block direction of motion looks vertically motion, can adjust according to corrugated container board's width effectively, make splint can stably carry out the centre gripping to corrugated container board effectively, can stably transport corrugated container board, make things convenient for follow-up cross cutting machine organism to carry out relevant operation.

Preferably, the second driving part includes: a second motor installed in the sliding groove; and one end of the threaded rod is assembled on the second motor output shaft, the other end of the threaded rod is rotatably connected to the position of the inner wall of the sliding groove, threaded parts with opposite threads are symmetrically formed in the rod body of the threaded rod, the sliding groove is internally connected with two sliding blocks in a sliding mode, and the sliding blocks are symmetrically connected to the position of the opposite threaded parts in a penetrating mode on the threaded rod.

Through adopting above-mentioned technical scheme, the structure of cooperateing through the second motor that sets up and threaded rod, through the drive of second motor, make the sliding block can carry out the displacement along the sliding tray, and simultaneously, the threaded rod possesses opposite screw thread portion, then can make on the same threaded rod, and the sliding block that is in opposite screw thread portion position department can carry out the motion that is close to each other or keeps away from each other, thereby can adjust according to corrugated container board's length effectively, make splint can stably carry out the centre gripping to corrugated container board effectively, can stably transport corrugated container board, make follow-up cross cutting machine organism carry out relevant operation.

Preferably, the third driving part includes: the third motor is arranged on the mounting seat and positioned at the top of one sliding groove; the bearing seat is arranged on the other mounting seat and is positioned at the top of the other sliding groove; one end of the screw thread strip is assembled on the output shaft of the third motor, and the other end of the screw thread strip is rotatably connected to the bearing seat; and both ends with mount pad both sides wall position department looks fixed horizontal pole, wherein, the opposite screw thread portion of screw thread is seted up to the symmetry on the strip body of screw thread strip, opposite screw thread portion position department symmetrical threaded connection on the screw thread strip has the displacement piece, the block of displacement piece with run through on the horizontal pole and slide the connection, displacement piece bottom through be provided with the bolster with splint looks be assembled between/be connected.

Through adopting above-mentioned technical scheme, drive through the third motor in the third drive assembly, the screw thread strip assembles with the third motor, and simultaneously, the side that two mounts are relative is provided with the horizontal pole, slide the connection in horizontal pole position department, screw thread position department threaded connection has the displacement piece, lead to the displacement piece through the horizontal pole, when making the screw thread strip pivoted, can drive the displacement piece and carry out the displacement along the horizontal extending direction of horizontal pole, splint are installed to displacement piece bottom, position adjustment through the displacement piece, can adjust according to corrugated container board's width effectively, make splint can stably carry out the centre gripping to corrugated container board effectively, can stably transport corrugated container board, make things convenient for follow-up cross cutting machine organism to carry out relevant operation.

Preferably, the buffer member includes: a bottom groove arranged at the bottom of the displacement block; the bottom block is connected in the bottom groove in a sliding manner; and one end of the buffer spring is fixed with the bottom block, and the other end of the buffer spring is fixed with the inner wall of the bottom groove, wherein the clamping plate is fixed at the bottom position of the bottom block.

Through adopting above-mentioned technical scheme, through kerve, bottom block and buffer spring's in the bolster cooperation setting for splint can possess certain buffer capacity when carrying out the centre gripping to corrugated container board, reduce the breakage to corrugated container board, improve corrugated container board's production quality.

Preferably, the splint comprises: the first clamping piece is fixed at the bottom of the bottom block; the groove is formed in the bottom of the first clamping piece; the second clamping piece is connected in the groove in an inserting mode; and the locking piece is arranged on the first clamping piece and used for locking the position of the second clamping piece, wherein an extension spring is fixed at the top insertion end of the second clamping piece, and the other end of the extension spring is fixed at the position of the inner top wall of the groove.

Through adopting above-mentioned technical scheme, splint are two clamping pieces: first clamping piece and second clamping piece alternate the registrate mutually and form, stretch through extension spring between first clamping piece and the second clamping piece, conveniently adjust the distance between first clamping piece and the second clamping piece on the one hand, on the other hand can also prevent that the second clamping piece from breaking away from first clamping piece, destroys the splint structure, through the setting of locking piece, can lock first clamping piece and second clamping piece effectively, the form of solid fixed splint.

Preferably, the locking member includes: the locking grooves are vertically and symmetrically formed in the side wall positions of the two sides of the second clamping piece; the rubber patches are vertically attached to the two sides of the inner wall of the locking groove; the vertical symmetrical penetrating grooves are formed in the side walls of the two sides of the first clamping piece in a penetrating mode and correspond to the locking grooves; and the horizontal thread penetrates through the through groove and is inserted into the locking screw in the locking groove, wherein a gasket is sleeved on the locking screw and is positioned between the head of the locking screw and the first clamping piece.

Through adopting above-mentioned technical scheme, through the locking groove in the locking piece and the cooperation setting of rubber paster, run through into through groove and locking groove through locking screw, utilize the frictional force of rubber paster to can make locking screw fix, lock first clamping piece and second clamping piece effectively, the form of solid fixed splint can improve the frictional force between locking screw and the first clamping piece through setting up of packing ring.

Preferably, the cell body has been seted up to the interior roof of first clamping piece with the interior diapire of second clamping piece, the cell body is close to one side of splint opening part is rotated and is connected with the flexure strip, the flexure strip is close to one side of cell body is fixed with expanding spring, expanding spring keeps away from the one end of cell body with cell body wall fixed connection, keeping away from of flexure strip an end face department of expanding spring pastes and is equipped with the sheet rubber.

Through adopting above-mentioned technical scheme, be provided with the flexure strip through articulating in the cell body, be connected through expanding spring between flexure strip and the cell body for two flexure strips can the centre gripping corrugated paper cardboard, make corrugated container board can stabilize the centre gripping on splint, make things convenient for follow-up cross cutting machine organism to carry out relevant operation.

In summary, the present application includes at least one of the following beneficial technical effects:

this application carries out the convenient subsequent packing of cross cutting to corrugated container board through the cross cutting machine organism that sets up, setting through the calibration subassembly, can carry out centre gripping and calibration location to corrugated container board, make things convenient for cross cutting machine to cut or impress the cardboard, can adjust the setting according to cardboard size length, width or thickness, effectively and carry out the centre gripping transportation steadily, thereby can improve the precision of cross cutting machine work, make the quality of cardboard obtain improving, when having reduced the cardboard because cutting or impress, can not fix a position well and carry out work and cause the quality problems to appear.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of an embodiment of the present application;

fig. 3 is a sectional view of a splint disassembled structure in the embodiment of the present application.

Description of reference numerals: 1. a frame; 2. a die cutting machine body; 3. a bearing table; 41. a holding plate; 51. a chute; 52. a slider; 53. a connecting seat; 54. a first motor; 55. a screw; 61. a sliding groove; 62. a slider; 63. a mounting seat; 64. a second motor; 65. a threaded rod; 71. a third motor; 72. a bearing seat; 73. a threaded strip; 74. a cross bar; 75. a displacement block; 76. a bottom groove; 77. a bottom block; 78. a buffer spring; 81. a first clip piece; 82. a groove; 83. a second clip; 84. an extension spring; 85. a locking groove; 86. rubber paster; 87. a through groove; 88. a locking screw; 89. a gasket; 91. a trough body; 92. an elastic sheet; 93. a tension spring; 94. a rubber sheet.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses high-efficient equipment for packing.

Referring to fig. 1 and 2, the efficient packaging equipment comprises a rack 1, wherein the rack 1 is arranged on the ground of a working environment through bolt connection, and the connection position of a bolt is further fixed through a welding mode. Install cross cutting machine organism 2 in this frame 1, can cut corrugated container board or stamp through cross cutting machine organism 2 for the corrugated container board that obtains after cross cutting machine organism 2 carries out corresponding operation can the subsequent packing step of adaptation.

Wherein, refer to fig. 1, fig. 2, be provided with plummer 3 that can hold corrugated container board in the top position department of this cross cutting machine organism 2, simultaneously, be provided with the calibration subassembly that can adjust corrugated container board well, make things convenient for cross cutting machine organism 2 to cut corrugated container board or impress in the top position department of this plummer 3.

Specifically, referring to fig. 1 and 2, in this embodiment, the calibration assembly includes a containing plate 41, a connecting seat 53 is fixed at the bottom of the containing plate 41, the connecting seat 53 is respectively fixed at four corners of the bottom of the containing plate 41, and meanwhile, a sliding groove 51 is formed at a table top of the plummer 3, a horizontal extending direction of the sliding groove 51 is consistent with a transmission direction of the die cutting machine body 2, wherein a sliding block 52 is slidably connected in the sliding groove 51, and a top block of the sliding block 52 is fixedly connected to a bottom seat of the connecting seat 53.

Next, referring to fig. 1 and fig. 2, a first motor 54 is fixed in the sliding chute 51, in this embodiment, a servo motor may be used as the first motor 54, specifically, an output shaft of the first motor 54 is oriented to coincide with a horizontal extending direction of the sliding chute 51, and a screw 55 is assembled on the output shaft of the first motor 54, and one end of the screw 55 away from the first motor 54 is rotatably connected to an inner wall of the sliding chute 51 on a side away from the first motor 54.

Meanwhile, referring to fig. 1 and 2, the screw thread of the screw 55 penetrates through the sliding block 52 in the sliding groove 51, and the sliding block 52 is connected with the sliding groove 51 in a sliding manner, so that the first motor 54 is driven, the screw 55 rotates to effectively drive the sliding movement to move along the horizontal extending direction of the sliding groove 51, the containing plate 41 is fixed on the connecting seat 53, the connecting seat 53 and the sliding block 52 are fixedly arranged, and the containing plate 41 finally can also move along the horizontal extending direction of the sliding groove 51.

In addition, referring to fig. 1 and 2, two sliding grooves 61 are formed in the top bearing surface of the containing plate 41, the two sliding grooves 61 are symmetrically arranged at the top bearing surface of the containing plate 41, and the horizontal extending direction of the sliding grooves 61 is consistent with the horizontal extending direction of the sliding grooves 51.

Referring to fig. 1 and 2, two sliding blocks 62 are slidably connected to the sliding groove 61, two sliding blocks 62 are provided in a single sliding groove 61, the two sliding blocks 62 are respectively located at two side portions of the sliding groove 61, and a second motor 64 is installed in the sliding groove 61, in this embodiment, a servo motor may also be used as the second motor 64, an output end of the second motor 64 is directed in the same direction as the horizontal extending direction of the sliding groove 61, a threaded rod 65 is installed on an output shaft of the second motor 64, and one end portion of the threaded rod 65 away from the second motor 64 is rotatably connected to an inner wall of the sliding groove 61 on the side away from the second motor 64.

More specifically, referring to fig. 1 and 2, opposite thread portions are formed on both sides of the rod body of the threaded rod 65, the rod body thread of the threaded rod 65 penetrates through the sliding blocks 62 in the single sliding groove 61, the two sliding blocks 62 are respectively located on the two opposite thread portions of the threaded rod 65, and when the second motor 64 is operated, the two sliding blocks 62 in the single sliding groove 61 can be driven to move toward or away from each other.

Meanwhile, referring to fig. 1 and 2, the mounting seats 63 are fixed at the opposite surface positions of the two movable blocks facing each other in the two sliding grooves 61, a cross bar 74 is connected between the two opposite mounting seats 63, the two ends of the cross bar 74 are fixedly arranged with the side walls of the mounting seats 63, and the horizontal extending direction of the two ends of the cross bar 74 is perpendicular to the horizontal extending direction of the sliding grooves 61 and the sliding grooves 51.

Next, referring to fig. 1 and 2, a third motor 71 is mounted at a top position of one of the mounting seats 63, in this embodiment, the third motor 71 may still be a servo motor, a receiving seat 72 is mounted at a top position of the other one of the mounting seats 63, an output shaft of the third motor 71 is directed to be consistent with a horizontal extending direction of the cross bar 74, a threaded bar 73 is mounted on the output shaft of the third motor 71, and the threaded bar 73 is also provided with symmetrical and opposite threaded portions on a bar body thereof.

More specifically, referring to fig. 1 and 2, displacement blocks 75 are threadedly connected to two opposite threaded portions of the threaded bar 73, the displacement blocks 75 are symmetrically arranged, horizontal slots are formed in block bodies of the two displacement blocks 75, and the cross bar 74 penetrates through the horizontal slots, so that the two displacement blocks 75 are slidably connected with the sliding block 52, and when the third motor 71 operates, the displacement blocks 75 are threadedly connected with the threaded rod 65 and slidably connected with the cross bar 74, so that the two displacement blocks 75 can be driven to move toward or away from each other.

Referring to fig. 1 and 2, a bottom groove 76 is formed in the bottom of the displacement block 75, the horizontal extending direction of the bottom groove 76 is the same as the horizontal extending direction of the cross bar 74, a bottom block 77 is slidably connected to a side of the bottom groove 76 away from the mounting base 63, a buffer spring 78 is horizontally disposed in the bottom groove 76, one end of the buffer spring 78 is fixed to an inner wall of the bottom groove 76 on a side close to the mounting base 63, and the other end of the buffer spring 78 is fixed to an inner wall of the bottom block 77 on a side close to the mounting base 63.

Referring to fig. 2 and 3, a clamping plate is fixed at the bottom of the bottom block 77, and in this embodiment, the clamping plate includes two major portions, one of which is a first clamping piece 81 fixed to the bottom of the bottom block 77, and the other of which is a second clamping piece 83 inserted into the bottom of the first clamping piece 81, specifically, a groove 82 is formed at the bottom of the first clamping piece 81, the groove 82 is adapted to the second clamping piece 83, so that the second clamping piece 83 can be inserted into the groove 82 and inserted into the first clamping piece 81, so that the cross section of the sleeve structure between the first clamping piece 81 and the second clamping piece 83 is a transverse "u" shape, and the opening of the clamping plate structure is disposed away from the mounting seat 71, wherein an extension spring 84 is fixed at the top insertion end of the second clamping piece 83, and the other end of the extension spring 84 is fixed at the inner top wall of the groove 82.

In addition, referring to fig. 2 and 3, locking groove 85 is vertically and symmetrically arranged at positions of side walls on two sides of second clip 83, rubber patches 86 are vertically attached to positions on two sides of the inner wall of locking groove 85, penetrating groove 87 corresponding to locking groove 85 is vertically and symmetrically arranged at positions of side walls on two sides of first clip 81, penetrating groove 87 is formed through horizontal threads, locking screw 88 is arranged in locking groove 85 in an inserted mode, a gasket 89 is sleeved on locking screw 88, and gasket 89 is located at a position between the head of locking screw 88 and first clip 81.

In addition, referring to fig. 2 and 3, a groove 91 is formed in the inner top wall of the first clamping piece 81 and the inner bottom wall of the second clamping piece 83, one side of the groove 91 close to the opening of the clamping plate is rotatably connected with an elastic piece 92, one side of the elastic piece 92 close to the groove 91 is fixed with a telescopic spring 93, one end of the telescopic spring 93, far away from the groove 91, is fixedly connected with the groove 91, and one end face of the elastic piece 92, far away from the telescopic spring 93, is attached with a rubber sheet 94.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A high efficiency packaging apparatus comprising: a frame (1) arranged in a working environment: and install cross cutting machine organism (2) in frame (1), wherein, the top position department of cross cutting machine organism (2) is provided with plummer (3) that are used for holding the cardboard, its characterized in that plummer (3) position department is provided with the calibration subassembly that is used for adjusting the corrugated paper cardboard well, the calibration subassembly includes: a containing plate (41) movably arranged on the bearing table (3); and the activity sets up hold board (41) on, be used for the splint of centre gripping corrugated paper cardboard, wherein, hold board (41) through be provided with first drive assembly with plummer (3) set up that moves about, splint through be provided with second drive assembly with hold board (41) and move about the setting, wherein, second drive assembly includes: two sliding grooves (61) symmetrically arranged on the bearing surface at the top of the containing plate (41); a sliding block (62) connected in the sliding groove (61) in a sliding manner; and a mounting seat (63) mounted at the top of the sliding block (62), wherein a second driving part is arranged in the sliding groove (61) and used for driving the sliding block (62) to move along the horizontal extending direction of the sliding groove (61), the clamping plates are symmetrically and movably arranged on the two opposite mounting seats (63), a third driving part is arranged on the mounting seat (63) and used for driving the clamping plates to clamp the corrugated board on the two mounting seats (63), and the third driving part comprises: a third motor (71) which is arranged on the mounting seat (63) and is positioned at the top of one sliding groove (61); a bearing seat (72) which is arranged on the other mounting seat (63) and is positioned at the top of the other sliding groove (61); one end of the screw thread strip (73) is assembled on the output shaft of the third motor (71), and the other end of the screw thread strip is rotatably connected to the bearing seat (72); and both ends with horizontal pole (74) that mount pad (63) both sides wall position department was fixed mutually, wherein, the opposite screw thread portion of screw thread is seted up to the symmetry on the strip body of screw thread strip (73), opposite screw thread portion position department symmetrical threaded connection on screw thread strip (73) has displacement piece (75), the block of displacement piece (75) with run through on horizontal pole (74) and slide the connection, displacement piece (75) bottom through being provided with the bolster with splint looks be assembled between/be connected, moreover, the bolster includes: a bottom groove (76) arranged at the bottom of the displacement block (75); a bottom block (77) connected in the bottom groove (76) in a sliding manner; and a buffer spring (78) having one end fixed to the bottom block (77) and the other end fixed to an inner wall of the bottom groove (76), wherein the clamp plate is fixed to a bottom position of the bottom block (77), and further, the clamp plate includes: a first jaw (81) fixed to the bottom of the bottom block (77); a groove (82) arranged at the bottom of the first clamping piece (81); a second clip (83) inserted and connected in the groove (82); and the locking piece is arranged on the first clamping piece (81) and used for locking the position of the second clamping piece (83), wherein the top inserting end of the second clamping piece (83) is fixedly provided with an extension spring (84), and the other end of the extension spring (84) is fixedly arranged at the position of the inner top wall of the groove (82).

2. A high efficiency packaging apparatus as recited in claim 1, wherein said first drive assembly comprises: a sliding chute (51) arranged on the table surface of the bearing table (3); a slide block (52) connected in the sliding groove (51) in a sliding way; and the connecting seat (53) is fixed at the top of the sliding block (52), the connecting seat (53) and the bottom of the containing plate (41) are fixedly arranged, and the sliding block (52) is driven by a first driving part and moves along the horizontal extending direction of the sliding groove (51).

3. A high efficiency packaging apparatus as recited in claim 2, wherein said first drive portion comprises: a first motor (54) mounted in the slide groove (51) and having an output shaft directed in the same direction as the horizontal extension direction of the slide groove (51); and the screw rod (55) is assembled on the output shaft of the first motor (54) at one end and is rotatably connected to the inner wall of the sliding groove (51) at the other end, wherein the sliding block (52) is in threaded through connection with the screw rod (55).

4. A high efficiency packaging apparatus as recited in claim 1, wherein said second drive member comprises: a second motor (64) mounted in the slide groove (61); and one end of the threaded rod (65) is assembled on the output shaft of the second motor (64), the other end of the threaded rod is rotatably connected to the inner wall of the sliding groove (61), threaded parts with opposite threads are symmetrically formed in the rod body of the threaded rod (65), two sliding blocks (62) are connected in the sliding groove (61) in a sliding mode, and the sliding blocks (62) are symmetrically connected to the positions of the opposite threaded parts on the threaded rod (65) in a threaded penetrating mode.

5. A high efficiency packaging apparatus as recited in claim 1, wherein said locking element comprises: locking grooves (85) which are vertically and symmetrically formed in the side wall positions of the two sides of the second clamping piece (83); rubber patches (86) vertically attached to the two sides of the inner wall of the locking groove (85); the penetrating grooves (87) are vertically and symmetrically penetrated and opened on the side walls of the two sides of the first clamping piece (81) and correspond to the locking grooves (85); and a locking screw (88) which is horizontally threaded through the through groove (87) and inserted into the locking groove (85), wherein a gasket (89) is sleeved on the locking screw (88), and the gasket (89) is positioned at a position between the head of the locking screw (88) and the first clamping piece (81).

6. The efficient packaging equipment as claimed in claim 1, wherein a groove body (91) is formed in an inner top wall of the first clamping piece (81) and an inner bottom wall of the second clamping piece (83), one side, close to the opening of the clamping plate, of the groove body (91) is rotatably connected with an elastic piece (92), one side, close to the groove body (91), of the elastic piece (92) is fixed with a telescopic spring (93), one end, far away from the groove body (91), of the telescopic spring (93) is fixedly connected with the wall of the groove body (91), and a rubber piece (94) is attached to one end face of the elastic piece (92), far away from the telescopic spring (93).