CN112452951A - Two-way shovel formula express delivery list processing equipment - Google Patents

Abstract

The invention relates to the field of express delivery, in particular to bidirectional shoveling type express delivery order processing equipment. The technical problem is as follows: provided is a bidirectional shoveling type express bill processing device. The technical scheme is as follows: a bidirectional shoveling type express bill processing device comprises a supporting base, a first side plate, an operation control screen, a fixed alignment system, a second side plate, an assembling plate, a glue melting system and a separation system; welding the side surface of the supporting bottom table with the first side plate; the upper part of the supporting base table is connected with a fixed alignment system. The express bill tearing device achieves the effects of elastically fixing the express box, preventing the express box from being damaged, quickly positioning and adjusting the express bill, quickly and bidirectionally tearing the express bill after hot melting the adhesive, replacing manpower and avoiding incomplete tearing of the express bill.

Description

Two-way shovel formula express delivery list processing equipment

Technical Field

The invention relates to the field of express delivery, in particular to bidirectional shoveling type express delivery order processing equipment.

Background

Present express delivery often is returned the condition, then need carry out subsequent processing to the product after tearing the express delivery list this moment, the express delivery that is returned under general condition is manual dismouting, the workman utilizes the cutter to assist and tears the express delivery list, can cause the damage to the express delivery case, and then lead to the express delivery case can not the secondary use, the increase cost, manual operation is inefficient simultaneously, and then lead to the processing time extension of express delivery case, to returning the same efficiency reduction of taking out of express delivery incasement portion goods, lead to the express delivery case to drop into the secondary use and return the cycle extension of the further processing of goods, the speed of leaving warehouse of express delivery has been slowed down.

In combination with the above problems, a bidirectional shoveling type express waybill processing device is urgently needed to solve the above problems.

Disclosure of Invention

In order to overcome the present express delivery often by the condition of returning, then need carry out subsequent processing to the product after tearing the express delivery list this moment, the express delivery that is returned under the general condition is manual dismouting, the workman utilizes the cutter to assist and tears the express delivery list, can cause the damage to the express delivery case, and then lead to the express delivery case can not the secondary use, the increase cost, manual operation is low simultaneously, and then lead to the processing time extension of express delivery case, to returning the same efficiency reduction of taking out of express delivery incasement portion goods, lead to the express delivery case to drop into the secondary use and return the cycle extension of the further processing of goods, the shortcoming of the speed of leaving warehouse of express delivery has been slowed down, the technical problem: provided is a bidirectional shoveling type express bill processing device.

The technical scheme is as follows: a bidirectional shoveling type express bill processing device comprises a supporting base, a first side plate, an operation control screen, a fixed alignment system, a second side plate, an assembling plate, a glue melting system and a separation system; welding the side surface of the supporting bottom table with the first side plate; the upper part of the supporting base table is connected with a fixed alignment system; two groups of second side plates are arranged on the side surface of the supporting base table; the first side plate is connected with the operation control screen; the two second side plates are connected with the gathering plate; the side surface of the assembly plate is sequentially provided with a glue melting system and a separation system; the glue melting system is connected with the separation system.

Optionally, the fixed alignment system includes a first power motor, a first transmission wheel, an opening assembly, a first connection block, a first cross push rod, a second cross push rod, a first fixed limit plate, a second connection block, a third cross push rod, a fourth cross push rod, a second fixed limit plate, an objective table, a first base plate, a second base plate, a first fixed mount, an axle column, a first flat gear, a wheel tooth plate, a push plate, an electric push rod, a fixed plate, a first connection plate, a first electric slider, a second electric slider, a first electric slide rail, a second connection plate, a first electric slide bar, a second electric slide bar, a third electric slide rail, a fourth electric slide rail, a first spring, and a second spring; an output shaft of the first power motor is fixedly connected with the first driving wheel; the first power motor is connected with the objective table through a nut by a bolt; the first driving wheel is in transmission connection with the opening assembly; one side of the opening component is connected with the first connecting block; the other side of the opening assembly is connected with a second connecting block; the lower part of the opening component is connected with a first fixing frame; the upper part of the first connecting block is fixedly connected with a first cross push rod and a second cross push rod in sequence; the first cross push rod and the second cross push rod are fixedly connected with the first fixed limiting plate in sequence; the first cross push rod and the second cross push rod are sequentially connected with the objective table in a sliding manner; the upper part of the second connecting block is fixedly connected with a third V-shaped push rod and a fourth V-shaped push rod in sequence; the third cross-shaped push rod and the fourth cross-shaped push rod are fixedly connected with the second fixed limiting plate in sequence; the third V-shaped push rod and the fourth V-shaped push rod object stage are in sliding connection; the upper part of the objective table is fixedly connected with the first base plate and the second base plate in sequence; the objective table is fixedly connected with the first fixing frame; the lower part of the first fixing frame is fixedly connected with the shaft column; the outer surface of the shaft column is fixedly connected with the first flat gear; the lower part of the shaft column is rotationally connected with the first connecting plate; the first flat gear is meshed with the gear tooth plate; the pinion plate and the push plate are welded; the push plate is inserted with the electric push rod; the electric push rod is fixedly connected with the fixed plate; the lower part of the fixing plate is welded with the first connecting plate; the lower part of the first connecting plate is fixedly connected with the first electric sliding block and the second electric sliding block in sequence; the first electric sliding block is in sliding connection with the first electric sliding rail; the second electric sliding block is in sliding connection with the second electric sliding rail; the lower parts of the first electric slide rail and the second electric slide rail are fixedly connected with a second connecting plate in sequence; the lower part of the second connecting plate is fixedly connected with the first electric slide bar and the second electric slide bar in sequence; the first electric sliding strip is in sliding connection with the third electric sliding rail; the third electric slide rail is connected with the supporting base platform; the second electric sliding strip is in sliding connection with the fourth electric sliding rail; the fourth electric slide rail is connected with the supporting base platform; one side of the first spring is welded with the first cross push rod; the other side of the first spring is welded with the third cross-shaped push rod; one side of the second spring is welded with the second cross push rod; the other side of the second spring is welded with the fourth V-shaped push rod.

Optionally, the glue melting system comprises a second power motor, a third transmission wheel, a fourth transmission wheel, a third shaft rod, a fifth transmission wheel, a transmission push rod, a transmission frame plate, a connecting frame, a limiting sliding ring, a sliding rod, a second fixing frame, a hot melter, a sixth transmission wheel, a first different gear, a fourth flat gear, a seventh transmission wheel and a scanner; an output shaft of the second power motor is fixedly connected with a third driving wheel; a scanner is arranged on the side surface of the second power motor; the second power motor is connected with the collecting plate; the scanner is connected with the collection plate; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the fourth driving wheel is fixedly connected with the third shaft rod; the outer surface of the third shaft rod is fixedly connected with a fifth driving wheel; the third shaft lever is fixedly connected with the transmission push rod; the third shaft lever is rotationally connected with the connecting frame; the third shaft lever is connected with the gathering plate; the transmission push rod is in transmission connection with the transmission frame plate; the lower part of the transmission frame plate is welded with the sliding rod; the connecting frame is welded with the limiting slip ring; the connecting frame is connected with the collecting plate; the limiting slip ring is connected with the sliding rod in a sliding manner; the lower part of the sliding rod is welded with the second fixing frame; the lower part of the second fixing frame is fixedly connected with the hot melting device; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the first different gear through a rotating shaft; the first different gear is meshed with the fourth flat gear; the fourth flat gear is fixedly connected with a seventh driving wheel through a rotating shaft; the seventh driving wheel is connected with the separating system.

Optionally, the separating system includes an eighth driving wheel, a fourth shaft rod, a ninth driving wheel, a fifth driving rod, a sixth driving rod, a first pushing block, a tenth driving wheel, a fifth shaft rod, a seventh driving rod, an eighth driving rod, a second pushing block, a separating assembly, a first auxiliary sliding plate, a second auxiliary sliding plate and a first supporting slide rail; the axle center of the eighth driving wheel is fixedly connected with the fourth shaft rod; the eighth driving wheel is connected with the seventh driving wheel; the outer surface of the fourth shaft rod is fixedly connected with a ninth driving wheel; the fourth shaft lever is fixedly connected with the fifth transmission rod; the fourth shaft lever is connected with the gathering plate; the outer ring surface of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the fifth transmission rod is in transmission connection with the sixth transmission rod; the sixth transmission rod is in transmission connection with the first propelling block; the first propelling block is connected with the disengaging component; the axle center of the tenth driving wheel is fixedly connected with the fifth shaft rod; the fifth shaft lever is in transmission connection with the seventh transmission rod; the fifth shaft lever is connected with the gathering plate; the seventh transmission rod is in transmission connection with the eighth transmission rod; the eighth transmission rod is in transmission connection with the second propelling block; the second propelling block is connected with the disengaging component; the upper part of the separation component is sequentially connected with the first auxiliary sliding plate and the second auxiliary sliding plate; the first auxiliary sliding plate and the second auxiliary sliding plate are sequentially connected with the first supporting sliding rail in a sliding manner; the first supporting slide rail is connected with the gathering plate.

Optionally, the opening assembly comprises a second driving wheel, a first shaft rod, a second pinion, a first driving rod, a second driving rod, a first pushing block, a first limiting slide rail, a third pinion, a second shaft rod, a third driving rod, a fourth driving rod, a second pushing block, a second limiting slide rail and a third connecting plate; the axle center of the second driving wheel is fixedly connected with the first shaft rod; the second transmission wheel is connected with the first transmission wheel; the outer surface of the first shaft rod is fixedly connected with the second flat gear; the first shaft lever is in transmission connection with the first transmission rod; the first shaft lever is rotationally connected with the third connecting plate; the second flat gear is meshed with the third flat gear; the first transmission rod is in transmission connection with the second transmission rod; the second transmission rod is in transmission connection with the first pushing block; the first pushing block is in sliding connection with the first limiting slide rail; the lower part of the first limiting slide rail is welded with a third connecting plate; the axle center of the third flat gear is fixedly connected with the second shaft rod; the second shaft lever is in transmission connection with the third transmission rod; the second shaft lever is rotationally connected with the third connecting plate; the third transmission rod is in transmission connection with the fourth transmission rod; the fourth transmission rod is in transmission connection with the second pushing block; the second pushing block is in sliding connection with the second limiting slide rail; the lower part of the second limiting slide rail is welded with a third connecting plate; the third connecting plate is connected with the first fixing frame.

Optionally, the disengaging assembly comprises a bearing plate, a third power motor, a second different gear, a third different gear, a fifth flat gear, a sixth shaft lever, a first cam, a connecting plate, a ninth transmission rod, a tenth transmission rod, a first pushing slider, a first L-shaped plate, a third spring, a first clamping plate, a second pushing slider, a second supporting slide rail, a second L-shaped plate, a fourth spring, a third clamping plate, a fourth clamping plate, a sixth flat gear, an eleventh transmission wheel, a twelfth transmission wheel, a first telescopic rod, a second cam, a second telescopic rod, a third cam and a sucker; the bearing plate is connected with a third power motor through a nut by a bolt; the bearing plate is rotatably connected with the sixth shaft rod; the lower part of the bearing plate is welded with the second support slide rail; the lower part of the bearing plate is sequentially connected with the first telescopic rod and the second telescopic rod in a rotating way; a sucker is arranged below the bearing plate; the bearing plate is connected with the first propelling block; the bearing plate is connected with the second propelling block; the bearing plate is connected with the first auxiliary sliding plate; the bearing plate is connected with the second auxiliary sliding plate; an output shaft of the third power motor is fixedly connected with the second different gear and the third different gear in sequence; a sixth flat gear is arranged on the side surface of the second different gear; the third differential gear is meshed with the fifth flat gear; the axis of the fifth flat gear is fixedly connected with the sixth shaft rod; the outer surface of the sixth shaft rod is fixedly connected with the first cam; the upper part of the first cam is contacted with the connecting plate; the connecting plate is in transmission connection with the ninth transmission rod and the tenth transmission rod in sequence; the ninth transmission rod is in transmission connection with the first pushing slide block; the tenth transmission rod is in transmission connection with the second pushing slide block; the lower part of the first pushing sliding block is welded with the first L-shaped plate; the first pushing slide block is in sliding connection with the second supporting slide rail; two groups of third springs are arranged below the first L-shaped plate; the lower part of the first L-shaped plate is welded with the second clamping plate; the first L-shaped plate is in sliding connection with the first clamping plate; the lower parts of the two third springs are welded with the first clamping plate; the first clamping plate is contacted with the second cam; the second pushing slide block is in sliding connection with the second supporting slide rail; the lower part of the second pushing sliding block is welded with the second L-shaped plate; two groups of fourth springs are arranged below the second L-shaped plate; the second L-shaped plate is in sliding connection with the third clamping plate; the lower part of the second L-shaped plate is welded with a fourth clamping plate; the lower parts of the two fourth springs are welded with the third clamping plate; the third clamping plate is contacted with the third cam; the sixth flat gear is fixedly connected with the eleventh transmission wheel through a rotating shaft; the outer ring surface of the eleventh driving wheel is in transmission connection with the twelfth driving wheel through a belt; the axle center of the twelfth driving wheel is fixedly connected with the first telescopic rod; the outer surface of the first telescopic rod is fixedly connected with the second cam; the first telescopic rod is fixedly connected with the second telescopic rod; the outer surface of the second telescopic rod is fixedly connected with the third cam.

Optionally, the transmission frame plate is internally provided with a groove shaped like a Chinese character 'hui', and two sides of the transmission frame plate are cambered surfaces.

Optionally, the side of the second clamping plate away from the side connected with the first L-shaped plate is an inclined surface.

The invention has the beneficial effects that: 1, in order to solve the problem that express delivery is often returned at present, the express delivery bill needs to be torn down and then the product is subjected to subsequent processing, the returned express delivery is generally manually disassembled and assembled, workers tear down the express delivery bill by using a tool to assist, damage can be caused to an express delivery box, the express delivery box cannot be used for the second time, the cost is increased, meanwhile, the manual operation efficiency is low, the processing time of the express delivery box is prolonged, the same efficiency for taking out goods in the returned express delivery box is reduced, the period for putting the express delivery box into the second time for use and further processing the returned goods is prolonged, and the delivery rate of the express delivery is slowed down;

2, a fixed alignment system, a glue melting system and a separation system are designed, when the express box is used, the express box is placed in the fixed alignment system in a state that the pasting surface of the express list faces upwards, the express box is clamped and fixed through the fixed alignment system and then conveyed, when the express box reaches the position of the glue melting system, the position of the express box is adjusted through the glue melting system and the fixed alignment system, the express list on the upper surface of the express box is turned to a state that the long side line is parallel to the moving direction, then the glue melting system carries out hot melting treatment on the adhesive glue of the express list of the express box, then the express box is conveyed to the position of the separation system, and the express list of the express box is quickly torn through the separation system;

3, reached and carried out elastic fixation to the express delivery case, prevented to cause the damage to the express delivery case to carry out quick positioning adjustment to the express delivery list, carry out quick two-way tearing to the express delivery list after will the adhesive hot melt and remove, replace the manual work, avoid the express delivery list to tear incomplete effect.

Drawings

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

FIG. 2 is a first perspective view of the alignment system of the present invention;

FIG. 3 is a second perspective view of the alignment system of the present invention;

FIG. 4 is a schematic perspective view of a glue melting system according to the present invention;

FIG. 5 is a schematic view of a partial three-dimensional structure of a glue melting system according to the present invention;

FIG. 6 is a schematic perspective view of a separation system of the present invention;

fig. 7 is a perspective view of the deployment assembly of the present invention;

fig. 8 is a perspective view of the detachment assembly of the present invention.

Reference numbers in the drawings: 1: support base, 2: first side board, 3: operation control screen, 4: fixed alignment system, 5: second side plate, 6: aggregate sheet, 7: melt adhesive system, 8: separation system, 401: first power motor, 402: first drive wheel, 403: flaring assembly, 404: first connection block, 405: first cross push rod, 406: second cross push rod, 407: first fixed limit plate, 408: second connection block, 409: thirty-first push rod, 4010: forty-th push rod, 4011: second fixed limiting plate, 4012: stage, 4013: first shim plate, 4014: second shim plate, 4015: first mount, 4016: column, 4017: first spur gear, 4018: pinion plate, 4019: push plate, 4020: electric putter, 4021: fixed plate, 4022: first connection plate, 4023: first electric slider, 4024: second electric slider, 4025: first electronic slide rail, 4026: second electric slide rail, 4027: second connecting plate, 4028: first electric slide, 4029: second motorized slide, 4030: third electric rail, 4031: fourth electric slide, 4032: first spring, 4033: second spring, 701: second power motor, 702: third drive wheel, 703: fourth transmission wheel, 704: third shaft, 705: fifth transmission wheel, 706: drive ram, 707: drive deckle plate, 708: connecting frame, 709: limiting slip ring, 7010: slide bar, 7011: second mount, 7012: hot melter, 7013: sixth drive wheel, 7014: first different gear, 7015: fourth flat gear, 7016: a seventh transmission wheel, 7017: scanner, 801: eighth drive wheel, 802: fourth shaft, 803: ninth drive wheel, 804: fifth driving lever, 805: sixth driving lever, 806: first pusher block, 807: tenth transmission wheel, 808: fifth shaft, 809: seventh driving lever, 8010: eighth transmission lever, 8011: second pusher block, 8012: disengaging assembly, 8013: first auxiliary slide plate, 8014: second auxiliary slide plate, 8015: first support rail, 40301: second drive wheel, 40302: first shaft, 40303: second flat gear, 40304: first transfer lever, 40305: second transmission lever, 40306: first pusher block, 40307: first limit slide rail, 40308: third spur gear, 40309: second shaft, 403010: third driving lever, 403011: fourth transmission lever, 403012: second pusher block, 403013: second limit slide rail, 403014: third connecting plate, 801201: bearing plate, 801202: third power motor, 801203: second different gear, 801204: third differential gear, 801205: fifth spur gear, 801206: sixth shaft, 801207: first cam, 801208: connector tile, 801209: ninth drive lever, 8012010: tenth transfer lever, 8012011: first push slider, 8012012: first L-shaped plate, 8012013: third spring, 8012014: first clamping plate, 8012015: second clip panel, 8012016: second push slider, 8012017: second support rail, 8012018: second L-shaped plate, 8012019: fourth spring, 8012020: third splint, 8012021: fourth splint, 8012022: sixth spur gear, 8012023: eleventh transmission wheel, 8012024: twelfth drive wheel, 8012025: first telescopic link, 8012026: second cam, 8012027: second telescopic rod, 8012028: third cam, 8012029: and (4) sucking discs.

Detailed Description

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

Example 1

A bidirectional shoveling type express waybill processing device is shown in figures 1-8 and comprises a supporting base platform 1, a first side plate 2, an operation control screen 3, a fixed alignment system 4, a second side plate 5, a collecting plate 6, a glue melting system 7 and a separation system 8; the side surface of the supporting bottom table 1 is welded with the first side plate 2; the upper part of the supporting base table 1 is connected with a fixed alignment system 4; two groups of second side plates 5 are arranged on the side surface of the supporting base table 1; the first side plate 2 is connected with the operation control screen 3; the two second side plates 5 are both connected with the gathering plate 6; the side surface of the assembly plate 6 is sequentially provided with a glue melting system 7 and a separation system 8; the glue melting system 7 is connected with the separation system 8.

The working process is as follows: when the device is used, the device is horizontally fixed at a position required to be used, an external power supply is connected, an operator carries out integral allocation on the device through an operation control screen 3, firstly, an express box is placed in a fixed alignment system 4 in a state that the sticking surface of the express box is upward, after the express box is clamped and fixed through the fixed alignment system 4, the express box is conveyed, when the express box reaches the position of a glue melting system 7, the position of the express box is adjusted through the glue melting system 7 in cooperation with the fixed alignment system 4, so that the express box on the upper surface of the express box is turned to a state that the long side line is parallel to the moving direction, then the glue melting system 7 carries out hot melting treatment on the adhesive of the express list of the express box, then, the express box is conveyed to a separation system 8, the express list of the express box is quickly torn through the separation system 8, and the device achieves the elastic fixation on the express box, prevent to cause the damage to the express delivery case to carry out quick positioning adjustment to the express delivery list, carry out quick two-way tearing to the express delivery list after will the adhesive hot melt, replace the manual work, avoid the express delivery list to tear incomplete effect.

In the invention, the fixed alignment system 4 includes a first power motor 401, a first driving wheel 402, an expanding assembly 403, a first connecting block 404, a first cross push rod 405, a second cross push rod 406, a first fixed limit plate 407, a second connecting block 408, a third cross push rod 409, a fourth cross push rod 4010, a second fixed limit plate 4011, an object stage 4012, a first backing plate 4013, a second backing plate 4014, a first fixed frame 4015, a shaft column 4016, a first flat gear 4017, a gear tooth plate 4018, a push plate 4019, an electric push rod 4020, a fixed plate 4021, a first connecting plate 4022, a first electric slider 4023, a second electric slider 4024, a first electric slide rail 4025, a second electric slide rail 4026, a second connecting plate 4027, a first electric slide bar 4028, a second electric slide bar 4029, a third electric slide rail 4030, a fourth electric slide rail 4031, a first spring 4032 and a second spring 4033; an output shaft of the first power motor 401 is fixedly connected with the first driving wheel 402; the first power motor 401 is connected with the objective table 4012 through a nut and a bolt; the first driving wheel 402 is in driving connection with the expanding assembly 403; one side of the expanding component 403 is connected with the first connecting block 404; the other side of the expanding component 403 is connected with a second connecting block 408; the lower part of the opening component 403 is connected with a first fixing frame 4015; the upper part of the first connecting block 404 is fixedly connected with a first cross push rod 405 and a second cross push rod 406 in sequence; the first cross push rod 405 and the second cross push rod 406 are fixedly connected with the first fixed limiting plate 407 in sequence; the first cross push rod 405 and the second cross push rod 406 are sequentially connected with the object stage 4012 in a sliding manner; the upper part of the second connecting block 408 is fixedly connected with a thirty-first push rod 409 and a forty-first push rod 4010 in sequence; a thirty-first push rod 409 and a forty-first push rod 4010 are fixedly connected with a second fixed limiting plate 4011 in sequence; the thirty-fourth push rod 409 is connected with the object stage 4012 of the forty-fourth push rod 4010 in a sliding way; the upper part of the object stage 4012 is fixedly connected with a first base plate 4013 and a second base plate 4014 in sequence; the object stage 4012 is fixedly connected with a first fixed frame 4015; the lower part of the first fixed frame 4015 is fixedly connected with a shaft post 4016; the outer surface of the shaft post 4016 is fixedly connected with a first flat gear 4017; the lower part of the shaft post 4016 is rotationally connected with a first connecting plate 4022; the first pinion 4017 intermeshes with a cogwheel plate 4018; the gear tooth plate 4018 and the push plate 4019 are welded; the push plate 4019 is inserted into the electric push rod 4020; the electric push rod 4020 is fixedly connected with the fixing plate 4021; the lower part of the fixing plate 4021 is welded with a first connecting plate 4022; the lower part of the first connecting plate 4022 is fixedly connected with a first electric slider 4023 and a second electric slider 4024 in sequence; the first electric sliding block 4023 is in sliding connection with the first electric sliding rail 4025; the second electric sliding block 4024 is in sliding connection with the second electric sliding rail 4026; the lower parts of the first electric slide rail 4025 and the second electric slide rail 4026 are fixedly connected with a second connecting plate 4027 in sequence; the lower part of the second connecting plate 4027 is fixedly connected with the first electric slide 4028 and the second electric slide 4029 in sequence; the first electric slide 4028 is connected with the third electric slide 4030 in a sliding manner; the third electric slide rail 4030 is connected with the support base table 1; the second electric slide 4029 is connected with the fourth electric slide 4031 in a sliding manner; the fourth electric slide rail 4031 is connected with the support base table 1; one side of the first spring 4032 is welded with the first cross push rod 405; the other side of the first spring 4032 is welded with the third cross-shaped push rod 409; one side of the second spring 4033 is welded with the second cross push rod 406; the other side of the second spring 4033 is welded with the forty-first push rod 4010.

Firstly, an express box to be processed is placed on a first backing plate 4013 and a second backing plate 4014, at the moment, a first spring 4032 and a second spring 4033 are in a telescopic state, a first power motor 401 is started to drive a first driving wheel 402 to rotate, and further drive an opening assembly 403, a first connecting block 404 and a second connecting block 408 are enabled to move close to each other through the opening assembly 403, further the first connecting block 404 drives a first cross push rod 405 and a second cross push rod 406 to move synchronously, meanwhile, the second connecting block 408 drives a third cross push rod 409 and a fourth cross push rod 4010 to move synchronously, four groups of sliding grooves are arranged in an objective table 4012, the first cross push rod 405, the second cross push rod 406, the third cross push rod 409 and the fourth cross push rod 4010 slide in the sliding grooves of the objective table 4012 at the same time, further, a first fixed limiting plate 407 and a second fixed limiting plate 4011 are enabled to move close to each other, and then the express box is clamped and fixed through the first fixed limiting plate 407 and the second fixed limiting plate 4011, meanwhile, the first spring 4032 and the second spring 4033 are contracted in a matched manner and are always in a tightened state, so that the clamping acting force of the first fixed limiting plate 407 and the second fixed limiting plate 4011 on the express box is an elastic acting force, then the third electric slide rail 4030 and the fourth electric slide rail 4031 are started, the first electric slide bar 4028 slides on the third electric slide rail 4030, the second electric slide bar 4029 slides on the fourth electric slide rail 4031, the first electric slide bar 4028 and the second electric slide bar 4029 drive the second connecting plate 4027 to move, and further the express box moves, after the express box is detected by the glue melting system 7, the electric push rod 4020 is started to push the push plate 4019 to move, the push plate 4019 drives the toothed plate 4018 to move, further drives the first flat gear 4017 to rotate through the wheel 4018, the first flat gear 4016 is driven to rotate by the first flat gear 4017, and further the first flat gear 4016 drives the first fixed frame 4015 to rotate, the express box is enabled to integrally rotate, the moving direction of the gear tooth plate 4018 can be controlled through stretching and shrinking of the electric push rod 4020, the rotating direction of the first flat gear 4017 can be controlled, the steering of the express box can be controlled, the first electric slide rail 4025 and the second electric slide rail 4026 are simultaneously started, the first electric slide block 4023 slides on the first electric slide rail 4025, the second electric slide block 4024 slides on the second electric slide rail 4026, the first connecting plate 4022 is driven to move through the first electric slide block 4023 and the second electric slide block 4024, the moving direction of the first connecting plate 4022 is perpendicular to the moving direction of the express box, the position of an express bill can be accurately adjusted, the adjusted position of the express bill is kept all the time to convey the express box, the system achieves elastic fixation of the express box and position adjustment of the express bill position of the express box, the express bill is convenient to tear off subsequently.

The glue melting system 7 comprises a second power motor 701, a third driving wheel 702, a fourth driving wheel 703, a third shaft 704, a fifth driving wheel 705, a driving push rod 706, a driving frame plate 707, a connecting frame 708, a limiting slip ring 709, a sliding rod 7010, a second fixing frame 7011, a hot melter 7012, a sixth driving wheel 7013, a first different gear 7014, a fourth flat gear 7015, a seventh driving wheel 7016 and a scanner 7017; an output shaft of the second power motor 701 is fixedly connected with a third driving wheel 702; a scanner 7017 is arranged on the side surface of the second power motor 701; the second power motor 701 is connected with the collecting plate 6; the scanner 7017 is connected with the collecting plate 6; the outer annular surface of the third driving wheel 702 is in driving connection with a fourth driving wheel 703 through a belt; the axle center of the fourth driving wheel 703 is fixedly connected with the third shaft rod 704; the outer surface of the third shaft rod 704 is fixedly connected with a fifth driving wheel 705; the third shaft rod 704 is fixedly connected with the transmission push rod 706; the third shaft 704 is rotatably connected with the connecting frame 708; third shaft 704 is connected to collective plate 6; the transmission push rod 706 is in transmission connection with the transmission frame plate 707; the lower part of the transmission frame plate 707 is welded with the sliding rod 7010; the connecting frame 708 is welded with the limiting slip ring 709; the link 708 is connected to the collective plate 6; the limiting slip ring 709 is in sliding connection with the sliding rod 7010; the lower part of the sliding rod 7010 is welded with a second fixed frame 7011; the lower part of the second fixed frame 7011 is fixedly connected with the hot melting device 7012; the outer ring surface of the fifth driving wheel 705 is in driving connection with a sixth driving wheel 7013 through a belt; the sixth driving wheel 7013 is fixedly connected with the first different gear 7014 through a rotating shaft; the first spur gear 7014 and the fourth spur gear 7015 mesh with each other; the fourth flat gear 7015 is fixedly connected with a seventh driving wheel 7016 through a rotating shaft; the seventh drive wheel 7016 is connected to the separating system 8.

When the express box moves to the position below the scanner 7017, the scanner 7017 scans the two-dimensional code carried by the express sheet, so that the position of the express sheet on the upper surface of the express box can be determined, then when the express box moves to the position below the hot melter 7012, the second power motor 701 drives the third driving wheel 702 to rotate, the third driving wheel 702 drives the fourth driving wheel 703 to rotate, the fourth driving wheel 703 drives the third shaft 704 to rotate, the third shaft 704 drives the transmission push rod 706 to rotate, the transmission push rod 706 drives the transmission frame plate 707, the transmission frame plate 707 is internally provided with a 'return' -shaped groove, two sides of the transmission frame plate are cambered surfaces, the transmission push rod 706 circularly slides in the groove of the transmission frame plate 707, the transmission frame plate 707 reciprocates up and down, the transmission frame plate 707 drives the slide rod 7010 to synchronously move, and the slide rod 7010 slides in the limit slip ring 709, the motion trail of the sliding rod 7010 is always located on the same vertical line by the limiting sliding ring 709, the sliding rod 7010 drives the hot melter 7012 to move up and down in a reciprocating manner through the second fixing frame 7011, when the hot melter 7012 moves to the lowest position, the express waybill just moves to the position below the hot melter 7012, the hot melter 7012 is used for hot melting the adhesive of the express waybill, the express box continues to move, meanwhile, the third shaft rod 704 drives the fifth driving wheel 705 to rotate, further, the fifth driving wheel 705 drives the sixth driving wheel 7013 to rotate, further, the sixth driving wheel 7013 drives the first different gear 7014 to rotate, gear teeth are arranged on one half of the outer annular surface of the first different gear 7014, the first different gear 7014 drives the fourth flat gear 7015 to rotate, further, the fourth flat gear 7015 is driven to rotate by the fourth flat gear 7015, and when the first different gear 7014 rotates until the gear teeth are separated from the fourth flat gear 7015 in contact with the fourth flat gear 7015, the outer annular surface stops rotating, the intermittent rotation of the seventh driving wheel 7016 is realized, the seventh driving wheel 7016 drives the separation system 8, and the system realizes the hot melting of the adhesive of the express waybill and is convenient for the subsequent tearing of the express waybill.

According to the invention, the separating system 8 comprises an eighth driving wheel 801, a fourth shaft rod 802, a ninth driving wheel 803, a fifth driving rod 804, a sixth driving rod 805, a first pushing block 806, a tenth driving wheel 807, a fifth shaft rod 808, a seventh driving rod 809, an eighth driving rod 8010, a second pushing block 8011, a disengaging assembly 8012, a first auxiliary sliding plate 8013, a second auxiliary sliding plate 8014 and a first supporting sliding rail 8015; the axle center of the eighth driving wheel 801 is fixedly connected with the fourth shaft rod 802; the eighth driving wheel 801 is connected with a seventh driving wheel 7016; the outer surface of the fourth shaft lever 802 is fixedly connected with a ninth driving wheel 803; the fourth shaft lever 802 is fixedly connected with the fifth transmission rod 804; the fourth shaft rod 802 is connected to the manifold 6; the outer annular surface of the ninth driving wheel 803 is in transmission connection with a tenth driving wheel 807 through a belt; the fifth transmission rod 804 is in transmission connection with the sixth transmission rod 805; the sixth transmission rod 805 is in transmission connection with the first propulsion block 806; the first pusher block 806 is coupled to the disengaging assembly 8012; the axle center of the tenth transmission wheel 807 is fixedly connected with the fifth shaft 808; the fifth shaft rod 808 is in transmission connection with a seventh transmission rod 809; the fifth shaft 808 is connected with the collecting plate 6; the seventh transmission rod 809 is in transmission connection with the eighth transmission rod 8010; the eighth driving rod 8010 is in driving connection with the second pushing block 8011; the second pusher block 8011 is coupled to the disengaging assembly 8012; the upper part of the disengaging assembly 8012 is connected with a first auxiliary sliding plate 8013 and a second auxiliary sliding plate 8014 in sequence; the first auxiliary slide plate 8013 and the second auxiliary slide plate 8014 are in sliding connection with the first support slide rail 8015 in sequence; first support slide 8015 is coupled to collection plate 6.

Firstly, the eighth driving wheel 801 drives the fourth shaft lever 802 to rotate, then the fourth shaft lever 802 drives the ninth driving wheel 803 and the fifth driving lever 804 to rotate, then the fifth driving lever 804 drives the sixth driving lever 805, the sixth driving lever 805 drives the first pushing block 806, the joint of the fifth driving lever 804 and the sixth driving lever 805 makes a circular motion with the axis of the fifth driving lever 804 as the center, then the sixth driving lever 805 drives the first pushing block 806 to reciprocate up and down, meanwhile, the ninth driving wheel 803 drives the tenth driving wheel 807 through a belt, then the tenth driving wheel 807 drives the fifth shaft lever 808 to rotate, then the fifth shaft lever 808 drives the seventh driving lever 809 to rotate, then the seventh driving lever 809 drives the eighth driving lever 8010, the eighth driving lever 8010 drives the second pushing block 8011 to reciprocate up and down, the operation of the fifth driving lever 804 and the sixth driving lever 805 and the operation of the seventh driving lever 809 and the eighth driving lever 8010 are performed synchronously, and then drive in step through first propulsion piece 806 and second propulsion piece 8011 and break away from subassembly 8012 and carry out reciprocating motion from top to bottom, break away from subassembly 8012 simultaneously and drive first supplementary slide 8013 and second supplementary slide 8014 and slide in first support slide 8015, through first supplementary slide 8013 and second supplementary slide 8014 to breaking away from reciprocating of subassembly 8012 and play limiting displacement, and then tear the operation of removing through breaking away from subassembly 8012 to the express delivery list, this system has realized tearing the two-way quick removal to the express delivery list.

According to the invention, the expanding assembly 403 comprises a second driving wheel 40301, a first shaft lever 40302, a second flat gear 40303, a first driving rod 40304, a second driving rod 40305, a first pushing block 40306, a first limit slide rail 40307, a third flat gear 40308, a second shaft lever 40309, a third driving rod 403010, a fourth driving rod 403011, a second pushing block 403012, a second limit slide rail 403013 and a third connecting plate 403014; the axle center of the second driving wheel 40301 is fixedly connected with the first shaft lever 40302; the second transmission wheel 40301 is connected with the first transmission wheel 402; the outer surface of the first shaft 40302 is fixedly connected with a second flat gear 40303; the first shaft lever 40302 is in transmission connection with the first transmission rod 40304; the first shaft 40302 is rotatably connected with the third connecting plate 403014; the second flat gear 40303 and the third flat gear 40308 are meshed with each other; the first transmission rod 40304 is in transmission connection with the second transmission rod 40305; the second transmission rod 40305 is in transmission connection with the first pushing block 40306; the first push block 40306 is connected with the first limit sliding rail 40307 in a sliding manner; the lower part of the first limit sliding rail 40307 is welded with a third connecting plate 403014; the axle center of the third flat gear 40308 is fixedly connected with the second shaft 40309; the second shaft 40309 is in driving connection with a third drive link 403010; the second shaft 40309 is rotatably connected to the third connecting plate 403014; the third transmission rod 403010 is in transmission connection with the fourth transmission rod 403011; the fourth transmission rod 403011 is in transmission connection with the second pushing block 403012; the second push block 403012 is connected with the second limit slide rail 403013 in a sliding manner; the lower part of the second limit slide rail 403013 is welded with a third connecting plate 403014; the third connecting plate 403014 is connected to the first fastening bracket 4015.

Firstly, the second transmission wheel 40301 drives the first shaft 40302 to rotate, then the first shaft 40302 drives the second flat gear 40303 and the first transmission rod 40304 to rotate simultaneously, then the first transmission rod 40304 drives the second transmission rod 40305, so that the second transmission rod 40305 drives the first push block 40306 to slide in a reciprocating manner in the first limit sliding rail 40307, and the second flat gear 40303 drives the third flat gear 40308 to rotate, then the third flat gear 40308 drives the second shaft 40309 to rotate, so that the second shaft 40309 drives the third transmission rod 403010 to rotate, so that the third transmission rod 403010 drives the fourth transmission rod 403011, so that the fourth transmission rod 403011 drives the second push block 403012 to slide in a reciprocating manner in the second limit sliding rail 403013, and the motions of the first push block 40306 and the second push block 403012 always keep asynchronous and synchronous motions, so that the first push block 40306 and the second push block 403012 can drive the first connecting block 404 and the second connecting block 403408 to synchronously move in an asynchronous manner, this subassembly has realized making first connecting block 404 and the synchronous opposite-direction motion of second connecting block 408, and then can cooperate the centre gripping fixed to the express delivery case.

In the invention, the disengaging assembly 8012 comprises a bearing plate 801201, a third power motor 801202, a second different gear 801203, a third different gear 801204, a fifth flat gear 801205, a sixth shaft 801206, a first cam 801207, a connecting plate 801208, a ninth transmission rod 801209, a tenth transmission rod 8012010, a first pushing slider 8012011, a first L-shaped plate 8012012, a third spring 8012013, a first clamping plate 8012014, a second clamping plate 8012015, a second pushing slider 8012016, a second supporting sliding rail 8012017, a second L-shaped plate 8012018, a fourth spring 8012019, a third clamping plate 8012020, a fourth clamping plate 8012021, a sixth flat gear 8012022, an eleventh transmission wheel 8012023, a twelfth transmission wheel 8012024, a first telescopic rod 8012025, a second cam 8012026, a second telescopic rod 8012027, a third cam 8012028 and a suction cup 8012029; the bearing plate 801201 is in bolted connection with the third power motor 801202 through a nut; the bearing plate 801201 is rotatably connected with the sixth shaft rod 801206; the lower part of the bearing plate 801201 is welded with a second support slide rail 8012017; the lower part of the bearing plate 801201 is sequentially connected with a first telescopic rod 8012025 and a second telescopic rod 8012027 in a rotating way; a suction cup 8012029 is arranged below the bearing plate 801201; the receiving plate 801201 is connected to the first pusher block 806; receiving plate 801201 is connected to second pusher block 8011; bearing plate 801201 is connected to first slide assist plate 8013; bearing plate 801201 is connected to second slide assist plate 8014; an output shaft of the third power motor 801202 is fixedly connected with the second different gear 801203 and the third different gear 801204 in sequence; a sixth flat gear 8012022 is arranged on the side surface of the second different gear 801203; the third differential gear 801204 intermeshes with the fifth flat gear 801205; the axle center of the fifth flat gear 801205 is fixedly connected with the sixth shaft rod 801206; the outer surface of the sixth shaft 801206 is fixedly connected with the first cam 801207; the first cam 801207 is in contact with the connector plate 801208 above; the splice plate 801208 is in turn drivingly connected to a ninth drive link 801209 and a tenth drive link 8012010; the ninth transmission rod 801209 is in transmission connection with the first pushing slide block 8012011; the tenth transmission rod 8012010 is in transmission connection with the second pushing slide block 8012016; the lower part of the first push slider 8012011 is welded with the first L-shaped plate 8012012; the first pushing slider 8012011 is connected with the second supporting slide rail 8012017 in a sliding way; two groups of third springs 8012013 are arranged below the first L-shaped plate 8012012; the lower part of the first L-shaped plate 8012012 is welded with a second clamping plate 8012015; the first L-shaped plate 8012012 is slidably connected to the first clamping plate 8012014; the lower parts of the two third springs 8012013 are welded with the first clamping plate 8012014; the first clamp 8012014 and the second cam 8012026 are in contact with each other; the second pushing slide block 8012016 is connected with the second supporting slide rail 8012017 in a sliding way; the lower part of the second push slide block 8012016 is welded with the second L-shaped plate 8012018; two groups of fourth springs 8012019 are arranged below the second L-shaped plate 8012018; the second L-shaped plate 8012018 is slidably connected to a third cleat 8012020; the lower part of the second L-shaped plate 8012018 is welded with a fourth splint 8012021; the lower parts of the two fourth springs 8012019 are welded with a third clamping plate 8012020; the third clip 8012020 and the third cam 8012028 contact each other; the sixth flat gear 8012022 is fixedly connected with an eleventh driving wheel 8012023 through a rotating shaft; the outer annular surface of the eleventh driving wheel 8012023 is in driving connection with a twelfth driving wheel 8012024 through a belt; the axle center of the twelfth driving wheel 8012024 is fixedly connected with the first telescopic rod 8012025; the outer surface of the first telescopic rod 8012025 is fixedly connected with the second cam 8012026; the first telescopic rod 8012025 is fixedly connected with the second telescopic rod 8012027; the outer surface of the second telescopic rod 8012027 is fixedly connected with the third cam 8012028.

When the disengaging assembly 8012 moves downwards integrally, the sucking disc 8012029 sucks the middle position of the courier note, the second clamping plate 8012015 and the fourth clamping plate 8012021 are located at two sides of the courier note, then the third power motor 801202 is started to drive the second different gear 801203 and the third different gear 801204 to rotate simultaneously, the second different gear 801203 and the third different gear 801204 are both provided with gear teeth in a half ring surface of an outer ring surface, and the gear teeth all face to the same side, at this time, the third different gear 801204 and the fifth flat gear 801205 are in meshing transmission, the fifth flat gear 801205 drives the sixth shaft 801206 to rotate, the sixth shaft 801206 drives the first cam 801207 to rotate, further, when the protruding position of the first cam 801207 rotates to be in contact with the connecting plate 801208, the connecting plate 801208 is pushed upwards, the connecting plate 801208 drives one ends of the ninth driving rod 801209 and the tenth driving rod 8012010 to move upwards, and the other end of the ninth driving rod 801209 is connected with the first pushing slider 8012011, the ninth transmission rod 801209 transmits the first push slider 8012011 to make the first push slider 8012011 slide on the surface of the second support slide rail 8012017, the other end of the tenth transmission rod 8012010 is connected with the second push slider 8012016, the tenth transmission rod 8012010 transmits the second push slider 8012016 to make the second push slider 8012016 slide on the surface of the second support slide rail 8012017, at this time, the first push slider 8012011 and the second push slider 8012016 move in opposite directions, the first push slider 8012011 drives the first L-shaped plate 8012012 to move synchronously, the first L-shaped plate 8012012 drives the second clamping plate 8012015 to move synchronously, the second push slider 8012016 drives the second L-shaped plate 8012018 to move synchronously, the second L-shaped plate 8012018 drives the fourth clamping plate 8012021 to move synchronously, at this time, the second clamping plate 8012015 and the fourth clamping plate 8012021 also move in opposite directions, the second clamping plate 8012015 and the fourth clamping plate 8012021 are inserted under two sides of the express delivery list, at this time, the second different-type gear 801203 and the third different gear 801204 rotate simultaneously, when the outer ring gear teeth of the second different gear 801203 rotate to be meshed with the sixth flat gear 8012022, the third different gear 801204 is disengaged from the fifth flat gear 801205, the second different gear 801203 drives the sixth flat gear 8012022 to rotate, the sixth flat gear 8012022 drives the eleventh driving wheel 8012023 to rotate, the eleventh driving wheel 8012023 drives the twelfth driving wheel 8012024 to rotate, the twelfth driving wheel 8012024 drives the first telescopic rod 8012025 to rotate, the first telescopic rod 8012025 drives the second cam 8012026 to rotate, when the protruding position of the second cam 8012026 rotates to be in contact with the first clamping plate 8012014 and then further rotates, the first clamping plate 8012014 is pushed downwards, the first clamping plate 8012014 is attached to the second clamping plate 8012015, the first clamping plate 8012014 and the second clamping plate 8012015 clamp one side of the express item, the first telescopic rod 8012025 drives the second telescopic rod 8012027 to rotate, and the second telescopic rod 8658 drives the third cam 8012028 to rotate, further rotate after the protruding position of third cam 8012028 rotates to and contacts with third splint 8012020 then promote third splint 8012020 downwards, and then make third splint 8012020 and the laminating of fourth splint 8012021, make third splint 8012020 and fourth splint 8012021 carry out the centre gripping to the opposite side of express delivery list, this system has realized the shovel and the centre gripping of express delivery list both sides, can tear the express delivery list fast.

In the invention, the transmission frame plate 707 is provided with a groove shaped like a Chinese character hui, and two sides of the groove are cambered surfaces.

The driving push rod 706 can slide in the groove of the driving frame plate 707, so as to realize the up-and-down reciprocating motion of the driving frame plate 707.

According to the invention, the side of the second clamping plate 8012015 away from the connection with the first L-shaped plate 8012012 is an inclined surface.

Can shovel the express delivery list, make the express delivery list can break away from the box completely.

While the 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 disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims (8)

1. The utility model provides a two-way shovel formula express delivery list processing apparatus, is including supporting base frame (1), first curb plate (2) and operation control screen (3), characterized by: the device also comprises a fixed alignment system (4), a second side plate (5), an assembly plate (6), a melt adhesive system (7) and a separation system (8); the side surface of the supporting bottom table (1) is welded with the first side plate (2); the upper part of the supporting base table (1) is connected with a fixed alignment system (4); two groups of second side plates (5) are arranged on the side surface of the supporting base table (1); the first side plate (2) is connected with the operation control screen (3); the two second side plates (5) are connected with the gathering plate (6); a glue melting system (7) and a separation system (8) are sequentially arranged on the side surface of the assembly plate (6); the glue melting system (7) is connected with the separation system (8).

2. The two-way shoveling type express delivery list processing equipment according to claim 1, wherein the fixed alignment system (4) comprises a first power motor (401), a first driving wheel (402), an opening assembly (403), a first connecting block (404), a first cross push rod (405), a second cross push rod (406), a first fixed limiting plate (407), a second connecting block (408), a third cross push rod (409), a fourth cross push rod (4010), a second fixed limiting plate (4011), an object stage (4012), a first base plate (4013), a second base plate (4014), a first fixing frame (4015), a shaft post (4016), a first flat gear (4017), a gear tooth plate (4018), a push plate (4019), an electric push rod (4020), a fixing plate (4021), a first connecting plate (4022), a first electric slider (4023), a second electric slider (4024), a first electric slide rail (4025), The electric sliding rail comprises a second electric sliding rail (4026), a second connecting plate (4027), a first electric sliding bar (4028), a second electric sliding bar (4029), a third electric sliding rail (4030), a fourth electric sliding rail (4031), a first spring (4032) and a second spring (4033); an output shaft of the first power motor (401) is fixedly connected with the first driving wheel (402); the first power motor (401) is in bolt connection with the objective table (4012) through a nut; the first driving wheel (402) is in driving connection with the opening assembly (403); one side of the opening component (403) is connected with the first connecting block (404); the other side of the opening component (403) is connected with a second connecting block (408); the lower part of the opening component (403) is connected with a first fixing frame (4015); the upper part of the first connecting block (404) is fixedly connected with a first cross push rod (405) and a second cross push rod (406) in sequence; the first cross push rod (405) and the second cross push rod (406) are fixedly connected with the first fixed limiting plate (407) in sequence; the first cross push rod (405) and the second cross push rod (406) are sequentially in sliding connection with the object stage (4012); the upper part of the second connecting block (408) is fixedly connected with a thirty-first push rod (409) and a forty-first push rod (4010) in sequence; a thirty-first push rod (409) and a forty-first push rod (4010) are fixedly connected with a second fixed limiting plate (4011) in sequence; the object stage (4012) of the thirty-third push rod (409) and the forty-fourth push rod (4010) are connected in a sliding way; the upper part of the objective table (4012) is fixedly connected with a first base plate (4013) and a second base plate (4014) in sequence; the objective table (4012) is fixedly connected with the first fixed frame (4015); the lower part of the first fixing frame (4015) is fixedly connected with a shaft post (4016); the outer surface of the shaft post (4016) is fixedly connected with a first flat gear (4017); the lower part of the shaft column (4016) is rotationally connected with a first connecting plate (4022); the first flat gear (4017) and the pinion plate (4018) are meshed with each other; the pinion plate (4018) is welded with the push plate (4019); the push plate (4019) is inserted into the electric push rod (4020); the electric push rod (4020) is fixedly connected with the fixing plate (4021); the lower part of the fixing plate (4021) is welded with the first connecting plate (4022); the lower part of the first connecting plate (4022) is fixedly connected with a first electric slider (4023) and a second electric slider (4024) in sequence; the first electric sliding block (4023) is in sliding connection with the first electric sliding rail (4025); the second electric sliding block (4024) is in sliding connection with the second electric sliding rail (4026); the lower parts of the first electric sliding rail (4025) and the second electric sliding rail (4026) are fixedly connected with a second connecting plate (4027) in sequence; the lower part of the second connecting plate (4027) is fixedly connected with the first electric sliding strip (4028) and the second electric sliding strip (4029) in sequence; the first electric slide bar (4028) is connected with the third electric slide rail (4030) in a sliding manner; the third electric slide rail (4030) is connected with the support base table (1); the second electric slide bar (4029) is connected with the fourth electric slide rail (4031) in a sliding manner; the fourth electric slide rail (4031) is connected with the support base table (1); one side of the first spring (4032) is welded with the first cross push rod (405); the other side of the first spring (4032) is welded with a third crossed push rod (409); one side of the second spring (4033) is welded with the second cross push rod (406); the other side of the second spring (4033) is welded with a forty-fourth push rod (4010).

3. The two-way shoveling type express waybill processing equipment of claim 2, wherein the glue melting system (7) comprises a second power motor (701), a third driving wheel (702), a fourth driving wheel (703), a third shaft lever (704), a fifth driving wheel (705), a driving push rod (706), a driving frame plate (707), a connecting frame (708), a limiting slide ring (709), a slide bar (7010), a second fixing frame (7011), a hot melter (7012), a sixth driving wheel (7013), a first special gear (7014), a fourth flat gear (7015), a seventh driving wheel (7016) and a scanner (7017); an output shaft of a second power motor (701) is fixedly connected with a third driving wheel (702); a scanner (7017) is arranged on the side surface of the second power motor (701); the second power motor (701) is connected with the collecting plate (6); the scanner (7017) is connected with the collection plate (6); the outer ring surface of the third driving wheel (702) is in transmission connection with a fourth driving wheel (703) through a belt; the axle center of the fourth transmission wheel (703) is fixedly connected with the third shaft lever (704); the outer surface of the third shaft lever (704) is fixedly connected with a fifth driving wheel (705); the third shaft lever (704) is fixedly connected with the transmission push rod (706); the third shaft lever (704) is rotationally connected with the connecting frame (708); the third shaft rod (704) is connected with the gathering plate (6); the transmission push rod (706) is in transmission connection with the transmission frame plate (707); the lower part of the transmission frame plate (707) is welded with a sliding rod (7010); the connecting frame (708) is welded with the limiting slip ring (709); the connecting frame (708) is connected with the gathering plate (6); the limiting slip ring (709) is in sliding connection with the sliding rod (7010); the lower part of the sliding rod (7010) is welded with a second fixed frame (7011); the lower part of the second fixed frame (7011) is fixedly connected with a hot melting device (7012); the outer ring surface of the fifth driving wheel (705) is in transmission connection with a sixth driving wheel (7013) through a belt; the sixth driving wheel (7013) is fixedly connected with the first different gear (7014) through a rotating shaft; the first different gear (7014) and the fourth flat gear (7015) are meshed with each other; the fourth flat gear (7015) is fixedly connected with a seventh driving wheel (7016) through a rotating shaft; the seventh driving wheel (7016) is connected with the separating system (8).

4. A two-way shoveling type express waybill processing device according to claim 3, wherein the separation system (8) comprises an eighth driving wheel (801), a fourth shaft lever (802), a ninth driving wheel (803), a fifth driving lever (804), a sixth driving lever (805), a first pushing block (806), a tenth driving wheel (807), a fifth shaft lever (808), a seventh driving lever (809), an eighth driving lever (8010), a second pushing block (8011), a disengaging assembly (8012), a first auxiliary sliding plate (8013), a second auxiliary sliding plate (8014) and a first supporting sliding rail (8015); the axle center of the eighth driving wheel (801) is fixedly connected with the fourth shaft lever (802); the eighth driving wheel (801) is connected with the seventh driving wheel (7016); the outer surface of the fourth shaft lever (802) is fixedly connected with a ninth driving wheel (803); the fourth shaft lever (802) is fixedly connected with a fifth transmission rod (804); the fourth shaft lever (802) is connected with the gathering plate (6); the outer ring surface of the ninth driving wheel (803) is in transmission connection with a tenth driving wheel (807) through a belt; the fifth transmission rod (804) is in transmission connection with the sixth transmission rod (805); the sixth transmission rod (805) is in transmission connection with the first propelling block (806); the first pushing block (806) is connected with the disengaging assembly (8012); the axle center of the tenth driving wheel (807) is fixedly connected with the fifth shaft lever (808); the fifth shaft lever (808) is in transmission connection with a seventh transmission rod (809); the fifth shaft lever (808) is connected with the gathering plate (6); the seventh transmission rod (809) is in transmission connection with the eighth transmission rod (8010); the eighth driving rod (8010) is in driving connection with the second pushing block (8011); the second pushing block (8011) is connected with the disengaging component (8012); the upper part of the disengaging component (8012) is sequentially connected with a first auxiliary sliding plate (8013) and a second auxiliary sliding plate (8014); the first auxiliary sliding plate (8013) and the second auxiliary sliding plate (8014) are sequentially in sliding connection with the first supporting sliding rail (8015); the first supporting slide rail (8015) is connected with the gathering plate (6).

5. The two-way shoveling type express mail processing device of claim 4, wherein the flaring component (403) comprises a second transmission wheel (40301), a first shaft rod (40302), a second flat gear (40303), a first transmission rod (40304), a second transmission rod (40305), a first pushing block (40306), a first limit sliding rail (40307), a third flat gear (40308), a second shaft rod (40309), a third transmission rod (403010), a fourth transmission rod (403011), a second pushing block (403012), a second limit sliding rail (403013) and a third connecting plate (403014); the axle center of the second driving wheel (40301) is fixedly connected with the first shaft lever (40302); the second transmission wheel (40301) is connected with the first transmission wheel (402); the outer surface of the first shaft lever (40302) is fixedly connected with the second flat gear (40303); the first shaft lever (40302) is in transmission connection with the first transmission rod (40304); the first shaft lever (40302) is rotationally connected with the third connecting plate (403014); the second flat gear (40303) and the third flat gear (40308) are meshed with each other; the first transmission rod (40304) is in transmission connection with the second transmission rod (40305); the second transmission rod (40305) is in transmission connection with the first pushing block (40306); the first push block (40306) is connected with the first limit sliding rail (40307) in a sliding manner; the lower part of the first limit sliding rail (40307) is welded with a third connecting plate (403014); the axle center of the third flat gear (40308) is fixedly connected with the second shaft lever (40309); the second shaft lever (40309) is in transmission connection with a third transmission rod (403010); the second shaft lever (40309) is rotatably connected with the third connecting plate (403014); the third transmission rod (403010) is in transmission connection with the fourth transmission rod (403011); the fourth transmission rod (403011) is in transmission connection with the second pushing block (403012); the second push block (403012) is connected with the second limit slide rail (403013) in a sliding way; the lower part of the second limit slide rail (403013) is welded with a third connecting plate (403014); the third connecting plate (403014) is connected with the first fixing frame (4015).

6. The two-way shoveling type express delivery list processing device according to claim 5, wherein the disengaging assembly (8012) comprises a bearing plate (801201), a third power motor (801202), a second special gear (801203), a third differential gear (801204), a fifth flat gear (801205), a sixth shaft (801206), a first cam (801207), a connecting plate (801208), a ninth transmission rod (801209), a tenth transmission rod (8012010), a first pushing slider (8012011), a first L-shaped plate (8012012), a third spring (8012013), a first clamping plate (8012014), a second clamping plate (8012015), a second pushing slider (8012016), a second supporting sliding rail (8012017), a second L-shaped plate (8012018), a fourth spring (8012019), a third clamping plate (8012020), a fourth clamping plate (8012021), a sixth flat gear (8012022), an eleventh gear (8012023), a twelfth driving wheel (8012024), a first telescopic rod (8012025), A second cam (8012026), a second telescoping rod (8012027), a third cam (8012028), and a suction cup (8012029); the bearing plate (801201) is in bolted connection with the third power motor (801202) through a nut; the bearing plate (801201) is rotationally connected with the sixth shaft lever (801206); the lower part of the bearing plate (801201) is welded with a second supporting slide rail (8012017); the lower part of the bearing plate (801201) is sequentially connected with a first telescopic rod (8012025) and a second telescopic rod (8012027) in a rotating way; a sucker (8012029) is arranged below the bearing plate (801201); the bearing plate (801201) is connected with the first propelling block (806); the bearing plate (801201) is connected with the second pushing block (8011); the bearing plate (801201) is connected with the first auxiliary sliding plate (8013); the bearing plate (801201) is connected with the second auxiliary sliding plate (8014); an output shaft of the third power motor (801202) is fixedly connected with the second different gear (801203) and the third different gear (801204) in sequence; a sixth flat gear (8012022) is arranged on the side surface of the second different gear (801203); the third differential gear (801204) and the fifth flat gear (801205) are meshed with each other; the axle center of the fifth flat gear (801205) is fixedly connected with the sixth shaft lever (801206); the outer surface of the sixth shaft lever (801206) is fixedly connected with the first cam (801207); the first cam (801207) is contacted with the connecting plate (801208) above the first cam; the connecting plate (801208) is in transmission connection with a ninth transmission rod (801209) and a tenth transmission rod (8012010) in sequence; the ninth transmission rod (801209) is in transmission connection with the first pushing slide block (8012011); the tenth transmission rod (8012010) is in transmission connection with the second pushing slide block (8012016); the lower part of the first pushing slide block (8012011) is welded with the first L-shaped plate (8012012); the first pushing slide block (8012011) is connected with the second supporting slide rail (8012017) in a sliding way; two groups of third springs (8012013) are arranged below the first L-shaped plate (8012012); the lower part of the first L-shaped plate (8012012) is welded with a second splint (8012015); the first L-shaped plate (8012012) is in sliding connection with the first clamping plate (8012014); the lower parts of the two third springs (8012013) are welded with the first clamping plate (8012014); the first clamping plate (8012014) is contacted with the second cam (8012026); the second pushing slide block (8012016) is in sliding connection with the second supporting slide rail (8012017); the lower part of the second pushing slide block (8012016) is welded with a second L-shaped plate (8012018); two groups of fourth springs (8012019) are arranged below the second L-shaped plate (8012018); the second L-shaped plate (8012018) is connected with a third splint (8012020) in a sliding way; the lower part of the second L-shaped plate (8012018) is welded with a fourth splint (8012021); the lower parts of the two fourth springs (8012019) are welded with a third clamping plate (8012020); the third clamping plate (8012020) is contacted with the third cam (8012028); the sixth flat gear (8012022) is fixedly connected with an eleventh driving wheel (8012023) through a rotating shaft; the outer ring surface of the eleventh driving wheel (8012023) is in transmission connection with a twelfth driving wheel (8012024) through a belt; the axle center of the twelfth driving wheel (8012024) is fixedly connected with the first telescopic rod (8012025); the outer surface of the first telescopic rod (8012025) is fixedly connected with the second cam (8012026); the first telescopic rod (8012025) is fixedly connected with the second telescopic rod (8012027); the outer surface of the second telescopic rod (8012027) is fixedly connected with a third cam (8012028).

7. The two-way shoveling type express waybill processing equipment of claim 6, wherein the transmission frame plate (707) is provided with a groove shaped like a Chinese character hui, and two sides of the transmission frame plate are cambered surfaces.

8. A two-way scoop type courier sheet handling apparatus according to claim 7, wherein the second clamping plate (8012015) is beveled on the side remote from the connection with the first L-shaped plate (8012012).

Images