CN112573131A - Stacking and layering material conveying device achieving quantitative subpackaging - Google Patents

Abstract

The invention discloses a quantitatively subpackaged stacking layered material conveying device, which comprises a box body, wherein an intermittent quantitative mechanism which intermittently rotates to control quantitative transmission is arranged at the top end of the right part of the box body, the intermittent quantitative mechanism comprises a turntable cavity fixedly arranged in the box body, a turntable is arranged in the turntable cavity, five through holes which are communicated up and down are uniformly and fixedly arranged in the turntable, the turntable is fixedly connected with a turntable shaft, the lower end of the turntable shaft is provided with an induction push-back mechanism which can perform push-back operation by rotation induction to facilitate subsequent subpackage box conveying, a ratchet wheel belt wheel is dynamically arranged at the top end of the turntable shaft, and the ratchet wheel belt wheel is connected with a belt wheel positioned on the right side of the ratchet wheel by a belt. And automatically stacking and conveying the material distribution boxes filled with quantitative materials.

Description

Stacking and layering material conveying device achieving quantitative subpackaging

Technical Field

The invention relates to the technical field related to material conveying, in particular to a stacking and layering material conveying device capable of achieving quantitative subpackaging.

Background

The main conveying modes of the materials are as follows: belt conveyor conveying, chain scraper conveyor conveying, screw conveyor conveying, bucket conveyor conveying and the like.

The material conveying and quantifying mechanism at the present stage is complex in structure, insufficient in tightness and easy to leak, stacking and conveying are needed manually, and efficiency is low.

Disclosure of Invention

Aiming at the technical defects, the invention provides a stacking and layering material conveying device for quantitative subpackaging, which can overcome the defects.

The invention relates to a quantitatively subpackaged stacked layered material conveying device, which comprises a box body, wherein an intermittent quantitative mechanism which intermittently rotates to control quantitative transmission is arranged at the top end of the right part of the box body, the intermittent quantitative mechanism comprises a turntable cavity fixedly arranged in the box body, a turntable is arranged in the turntable cavity, five through holes which are communicated up and down are uniformly and fixedly arranged in the turntable, the turntable is fixedly connected with a turntable shaft, the lower end of the turntable shaft is provided with an induction push-back mechanism which can perform push-back operation through rotation induction and is convenient for subsequent subpackage box conveying, a ratchet wheel belt wheel is dynamically arranged at the top end of the turntable shaft, the ratchet wheel belt wheel is connected with a belt wheel positioned on the right side of the turntable shaft through a belt, sealing pipe chutes with openings towards the turntable cavity are symmetrically and fixedly arranged on the upper end wall and the lower end wall of the left end of the turntable cavity, and sealing mechanisms for keeping transmission sealing, upside the sealed tube spout upside is provided with material storage fill, downside sealed tube spout downside is provided with piles groove, pile inslot sliding connection has piles supporting slide, pile supporting slide bottom surface with it is provided with piles flexible gasbag to pile between the groove, pile flexible gasbag downside is provided with piles and transmits to the outer mechanism that piles of pushing away of device after certain height, pile the fixed horizontal feed groove that is provided with the opening rightwards of groove top left end wall, the fixed ascending feeding spout that is provided with the opening in horizontal feed groove left end bottom wall, be provided with in the horizontal feed groove left end and utilize the gasbag inflation to press from both sides tight centre gripping transmission mechanism.

Preferably, the turntable shaft is rotatably connected with the box body, the ratchet wheel belt wheel and the belt wheel are both arranged in a belt cavity, an intermittent power mechanism is arranged on the upper side of the belt wheel, a dispensing box supply mechanism is arranged in the feeding chute, left and right feeding grooves with backward openings are fixedly arranged on the front end walls of the top ends of the horizontal feeding groove and the stacking groove, left and right feeding blocks are slidably connected in the left and right feeding grooves, a lifting chute with a backward opening is fixedly arranged on the front end walls of the left and right feeding grooves, a lifting slide block is slidably connected in the lifting chute, a lifting electric guide rail is fixedly arranged on the front end wall of the lifting chute, the lifting electric guide rail is in power sliding connection with the front end of the lifting slide block, a guide groove communicated with the left and right is fixedly arranged on the rear end of the lifting slide block, a guide clamping block is slidably connected in the guide, an output groove with a right opening is fixedly arranged on the right end wall of the bottom end of the stacking groove.

Preferably, response return mechanism including fixed set up in the turning block of carousel axle bottom, the turning block is located the turning block intracavity, the fixed rotation induction system that is provided with of turning block right-hand member face, the fixed induction system that is provided with of turning block chamber lateral wall, pile groove top reaches it leads to the groove to control the fixed right side that is provided with the opening left of feeding groove right-hand member wall, the groove right-hand member wall that leads to in the right side is provided with the telescopic link that pushes back, rotate induction system rotate with fixed induction system response can control the telescopic link that pushes back starts.

Preferably, sealing mechanism include the rear end set up in sealed slide tube in the sealed tube spout, sealed slide tube is kept away from the terminal surface of carousel with be provided with sealed expansion ring between the sealed tube spout, the downside sealed slide tube sliding connection has the funnel piece, communicating hopper groove about the funnel piece internal fixation is provided with, the fixed support ring that is provided with of funnel piece side rampart, the support ring bottom surface with through support ring spring coupling between the sealed tube spout.

Preferably, push away pile mechanism including fixed set up in pile flexible gasbag bottom hold the gas trachea, hold the fixed gas trachea bottom and be provided with the gas storage chamber, gas storage intracavity sliding connection has the gas storage piston, gas storage piston bottom surface with through holding gas piston spring coupling between the gas storage chamber, the gas storage piston can connect the time delay disconnect-circuit between the device of stacking by pushing away and the power, the device of stacking by pushing away is arranged in pile groove bottom left end wall.

Preferably, the clamping transmission mechanism comprises clamping support blocks which are arranged in the left end of the horizontal feeding groove in a bilateral symmetry mode, a pneumatic cavity is fixedly arranged in each clamping support block, an electromagnet is fixedly arranged on the end wall, far away from the lifting electric guide rail, of each pneumatic cavity, a piston is connected in each pneumatic cavity in a sliding mode, the end face, far away from the lifting electric guide rail, of each piston is connected with the pneumatic cavity through a piston spring, a clamping air bag is fixedly arranged on the end wall, close to the lifting electric guide rail, of each pneumatic cavity, and a transmission telescopic rod is arranged on the left end wall of the horizontal feeding groove.

Preferably, the intermittent power mechanism comprises a gear shaft fixedly connected with the belt wheel, the gear shaft is rotatably connected with the box body, a gear is fixedly arranged at the top end of the gear shaft and arranged in a gear cavity, the gear can be meshed with an incomplete gear on the left side of the gear shaft and is fixedly connected with the bottom end of a motor shaft, the incomplete gear is rotatably connected with the box body, and a motor is dynamically arranged at the top end of the motor shaft.

Preferably, partial shipment box feed mechanism including set up in the feeding spout and rather than sliding connection's the slider of feeding, feed the slider bottom surface with through feeding slider spring coupling between the feeding spout, feed the slider upside and evenly be provided with seven partial shipment boxes from top to bottom, be located the horizontal feed inslot topmost partial shipment box sets up between the side centre gripping gasbag about, the partial shipment box bottom end is fixed and is provided with the ascending partial shipment box groove of opening, the partial shipment box top end is fixed set up evenly set up in four ascending spread grooves of opening all around the partial shipment box groove, the partial shipment box bottom surface evenly fixed be provided with four can with spread groove sliding connection's spread groove.

The beneficial effects are that: the device provided by the invention utilizes a simple mechanism to perform intermittent transmission to control quantitative transmission of materials, the material conveying and quantifying mechanism is simple in structure and convenient to maintain and operate, the ratchet wheel belt wheel is utilized to avoid reverse rotation to ensure quantification, multiple airtight protection of the airtight sliding pipe and the funnel is utilized, the airtightness in the transmission process is improved, material leakage is avoided, the material distributing box filled with the quantified materials is automatically stacked and transmitted, manual stacking and transmission are not needed, the efficiency is high, and the stacking is stable.

Drawings

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

FIG. 1 is a schematic structural view of a quantitatively packaged stacked layered material conveying device according to the present invention;

FIG. 2 is a schematic view of A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of B-B in FIG. 1 according to an embodiment of the present invention;

fig. 4 is an enlarged schematic view of the structure at C in fig. 1 according to the embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a quantitatively-subpackaged stacked layered material conveying device, which comprises a box body 10, wherein an intermittent quantitative mechanism which intermittently rotates to control quantitative transmission is arranged at the top end of the right part of the box body 10, the intermittent quantitative mechanism comprises a turntable cavity 46 fixedly arranged in the box body 10, a turntable 44 is arranged in the turntable cavity 46, five through holes 45 which are communicated up and down are uniformly and fixedly arranged in the turntable 44, the turntable 44 is fixedly connected with a turntable shaft 47, the lower end of the turntable shaft 47 is provided with an induction return mechanism which can carry out return push operation by rotation induction so as to facilitate the subsequent subpackage box conveying, the top end of the turntable shaft 47 is dynamically provided with a ratchet wheel belt wheel 14, the ratchet wheel belt wheel 14 is connected with a belt wheel 21 positioned on the right side of the turntable shaft through a belt 23, the upper end wall and the lower end wall of the left end of the turntable cavity 46 are symmetrically and fixedly provided with a, the device is characterized in that a sealing mechanism which utilizes a sliding pipe, a telescopic pipe, a funnel and the like to keep transmission sealing performance is arranged in the sealing pipe chute 68, a material storage hopper 11 is arranged on the upper side of the sealing pipe chute 68, a stacking groove 49 is arranged on the lower side of the sealing pipe chute 68, a stacking supporting slide block 30 is connected in the stacking groove 49 in a sliding mode, a stacking telescopic air bag 31 is arranged between the bottom surface of the stacking supporting slide block 30 and the stacking groove 49, a stacking mechanism which stacks the materials to a certain height and then transmits the materials to the outside of the device is arranged on the lower side of the stacking telescopic air bag 31, a horizontal feeding groove 48 with a rightward opening is fixedly arranged on the left end wall of the top end of the stacking groove 49, a feeding chute 38 with an upward opening is fixedly arranged on the left end wall of the horizontal feeding groove 48, and a clamping transmission mechanism which utilizes air.

Beneficially, the turntable shaft 47 is rotatably connected to the box body 10, the ratchet wheel pulley 14 and the pulley 21 are both disposed in the belt cavity 24, an intermittent power mechanism is disposed on the upper side of the pulley 21, a dispensing box supply mechanism is disposed in the feeding chute 38, left and right feeding grooves 52 with backward openings are fixedly disposed on the front end walls of the top ends of the horizontal feeding groove 48 and the stacking groove 49, left and right feeding blocks 54 are slidably connected to the left and right feeding grooves 52, a lifting chute 72 with backward openings is fixedly disposed on the front end walls of the left and right feeding grooves 52, a lifting slider 12 is slidably connected to the lifting chute 72, a lifting electric guide rail 56 is fixedly disposed on the front end wall of the lifting chute 72, the lifting electric guide rail 56 is dynamically slidably connected to the front end of the lifting slider 12, and a guide groove 13 communicated with left and right is fixedly disposed on the rear end of the lifting slider, a guide block 55 is slidably connected in the guide groove 13, the guide block 55 is fixedly connected with the front end surface of the left and right feeding blocks 54, and the right end wall of the bottom end of the stacking groove 49 is fixedly provided with an output groove 26 with a right opening.

Beneficially, the induction push-back mechanism comprises a rotating block 28 fixedly arranged at the bottom end of the rotating disc shaft 47, the rotating block 28 is located in a rotating block cavity 29, a rotation induction device 27 is fixedly arranged on the right end face of the rotating block 28, a fixed induction device 25 is fixedly arranged on the side wall of the rotating block cavity 29, a right through groove 50 with a left opening is fixedly arranged at the top end of the stacking groove 49 and on the right end wall of the left and right feeding grooves 52, a push-back telescopic rod 51 is arranged on the right end wall of the right through groove 50, and the rotation induction device 27 and the induction of the fixed induction device 25 can control the push-back telescopic rod 51 to be started.

Beneficially, the sealing mechanism includes a sealing sliding tube 69, the rear end of which is disposed in the sealing tube sliding groove 68, a sealing telescopic ring 65 is disposed between an end surface of the sealing sliding tube 69, which is far away from the turntable 44, and the sealing tube sliding groove 68, a funnel block 64 is slidably connected in the sealing sliding tube 69 at the lower side, a funnel groove 62 which is communicated with the upper side and the lower side is fixedly disposed in the funnel block 64, a support ring 67 is fixedly disposed on a side ring wall of the funnel block 64, and a bottom surface of the support ring 67 is connected with the sealing tube sliding groove 68 through a support ring spring 66.

Beneficially, the stacking mechanism comprises an air storage tube 34 fixedly arranged at the bottom end of the stacking expansion air bag 31, an air storage cavity 32 is fixedly arranged at the bottom end of the air storage tube 34, an air storage piston 33 is slidably connected in the air storage cavity 32, the bottom surface of the air storage piston 33 is connected with the air storage cavity 32 through an air storage piston spring 35, the air storage piston 33 can be connected with a time-delay disconnection circuit between the stacking device 36 and a power supply thereof, and the stacking device 36 is arranged at the left end wall at the bottom end of the stacking groove 49.

Beneficially, the clamping transmission mechanism comprises clamping support blocks 53 which are arranged in the left end of the horizontal feeding groove 48 in a bilateral symmetry manner, a pneumatic cavity 60 is fixedly arranged in each clamping support block 53, an electromagnet 58 is fixedly arranged on the end wall, far away from the lifting electric guide rail 56, of each pneumatic cavity 60, a piston 70 is connected in each pneumatic cavity 60 in a sliding manner, the end face, far away from the lifting electric guide rail 56, of each piston 70 is connected with the pneumatic cavity 60 through a piston spring 15, a clamping air bag 61 is fixedly arranged on the end wall, near to the lifting electric guide rail 56, of each pneumatic cavity 60, and a transmission telescopic rod 59 is arranged on the left end wall of the horizontal feeding groove 48.

Advantageously, the intermittent power mechanism comprises a gear shaft 20 fixedly connected with the belt wheel 21, the gear shaft 20 is rotatably connected with the box body 10, a gear 18 is fixedly arranged at the top end of the gear shaft 20, the gear 18 is arranged in a gear cavity 19, the gear 18 can be meshed with an incomplete gear 22 positioned on the left side of the gear 18, the incomplete gear 22 is fixedly connected with the bottom end of a motor shaft 17, the incomplete gear 22 is rotatably connected with the box body 10, and the motor 16 is dynamically arranged at the top end of the motor shaft 17.

Advantageously, the dispenser box feeding mechanism comprises a feeding slide block 39 arranged in the feeding chute 38 and slidably connected with the feeding slide block, the bottom surface of the feeding slide block 39 is connected with the feeding chute 38 through a feeding slide block spring 37, seven dispenser boxes 41 are uniformly arranged on the upper side and the lower side of the feeding slide block 39, the dispenser box 41 positioned at the topmost end in the horizontal feeding groove 48 is arranged between a left clamping air bag 61 and a right clamping air bag 61, the bottom end of the dispenser box 41 is fixedly provided with a dispenser box groove 43 with an upward opening, the top end of the dispenser box 41 is fixedly provided with four connecting grooves 42 with upward openings, the four connecting grooves 40 can be slidably connected with the connecting grooves 42.

In the initial state, the stacking expansion bladder 31, the sealing expansion ring 65, the support ring spring 66, and the air accumulation piston spring 35 are in the normal state, the clamping bladder 61 is in the expanded state, and the feed slider spring 37 is in the compressed state;

sequence of mechanical actions of the whole device:

1. the transmission telescopic rod 59 is controlled to extend rightwards, so that the left and right clamping supporting blocks 53 and the left and right feeding blocks 54 are pushed to move rightwards to the rightmost end position of the stacking groove 49, the material storage hopper 11 is started to carry out material transmission, thereby intermittently moving the five through holes 45 to the lower side position of the material storage hopper 11 for a certain time, starting the motor 16, thereby rotating the motor shaft 17, and thus the incomplete gear 22, so that the incomplete gear 22 is intermittently meshed with the gear 18, thereby intermittently rotating the gear 18, and thus the gear shaft 20, and thus the pulley 21, thereby intermittently rotating the ratchet pulley 14, and thus the turntable shaft 47, and thus the turntable 44, so that a certain amount of materials fall into the separate packaging box groove 43 at the top end of the upper side of the stacking support sliding block 30 in the stacking groove 49 through the upper side sealing sliding pipe 69, the rotary disc 44, the lower side sealing sliding pipe 69 and the bucket groove 62;

2. after the quantitative transmission to the corresponding sub-packaging box groove 43 is finished, the left and right electromagnets 58 are controlled to be switched on, so that the suction piston 70 moves towards the direction far away from the sub-packaging box groove 43, the gas in the clamping airbag 61 is pumped into the gas pressure cavity 60 through the connecting gas pipe 63, the left and right clamping airbags 61 contract, the clamping of the loaded sub-packaging box 41 is stopped, the sub-packaging box 41 moves downwards to the corresponding connecting groove 40 and is connected with the connecting groove 42 at the top end of the sub-packaging box 41, the stacking support sliding block 30 moves downwards for a certain distance, the stacking expansion airbag 31 contracts downwards for a certain length, the turntable 44 rotates intermittently to rotate intermittently the rotating block 28 and the rotation sensing device 27, the fixed sensing device 25 senses the rotating block 28 and the rotation sensing device 27 to rotate intermittently for a certain angle, and the push-back expansion rod 51 is controlled to move leftwards, thereby pushing the left and right clamping support blocks 53 and the left and right feeding blocks 54 to move leftwards to the leftmost position of the horizontal feeding slot 48, starting the lifting electric guide rail 56 to control the lifting slide block 12 to drive the left and right feeding blocks 54 and the left and right clamping support blocks 53 to move downwards until the left and right clamping support blocks 53 are positioned at the left and right positions of the lower top dispensing box 41, closing the left and right sides, thereby enabling the piston 70 to move towards the direction close to the dispensing box slot 43 under the reset action of the piston spring 15, so that the gas in the gas pressure chamber 60 is squeezed into the clamping air bag 61 through the connecting gas pipe 63, thereby enabling the left and right clamping air bag 61 to expand, thereby clamping the top dispensing box 41, controlling the lifting slide block 12 to drive the left and right feeding blocks 54 and the left and right clamping support blocks 53 to move upwards through the lifting electric guide rail 56, thereby enabling the clamping air bag 61 to clamp the top dispensing box slot 43, thereby reducing the weight borne by the feeding slide block 39, and enabling the feeding slide block 39 to move upwards for a certain distance under the reset action of the feeding slide block spring 37;

3. the loaded sub-packaging boxes 41 are stacked on the stacking support slide block 30, so that the gas in the stacking expansion air bag 31 is quantitatively extruded into the air storage cavity 32 through the gas storage pipe 34, the gas storage piston 33 moves downwards at a certain distance, the gas storage piston 33 moves downwards to the bottommost position and then is connected with a circuit between the stacking device 36 and a power supply thereof, the stacking device 36 is controlled to extend rightwards, and the stacked sub-packaging boxes 41 are pushed to move rightwards to the output groove 26 and then are conveyed out of the output device;

4. when the device needs to reset, the stacking device 36 contracts leftwards after the stacked split charging box 41 which is conveyed to finish stacking, so that the weight of the upper side of the stacking support sliding block 30 is emptied, the air storage piston 33 moves upwards under the reset action of the air storage piston spring 35, the stacking support sliding block 30 moves upwards under the reset action of the stacking expansion air bag 31, so that the air in the air storage cavity 32 is conveyed into the stacking expansion air bag 31 through the air storage air pipe 34, the operations are repeated for carrying out a plurality of times of stacking conveying, and after the conveying is finished, the material storage hopper 11 and the motor 16 are controlled to be closed, so that all moving parts stop moving, all elastic elements play a reset action, and the device resets.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (8)

1. The utility model provides a pile layering material conveyor of ration partial shipment, includes the box, its characterized in that: the top end of the right part of the box body is provided with an intermittent rotation mechanism for controlling quantitative transmission, the intermittent rotation mechanism comprises a turntable cavity fixedly arranged in the box body, a turntable is arranged in the turntable cavity, five through holes which are communicated up and down are uniformly and fixedly arranged in the turntable, the turntable is fixedly connected with a turntable shaft, the lower end of the turntable shaft is provided with an induction push-back mechanism which can perform rotary induction and push-back operation to facilitate subsequent distribution box transmission, the top end of the turntable shaft is dynamically provided with a ratchet wheel belt wheel, the ratchet wheel belt wheel is connected with a belt wheel positioned on the right side of the ratchet wheel belt wheel through a belt, the upper end wall and the lower end wall of the left end of the turntable cavity are symmetrically and fixedly provided with a sealing pipe chute, an opening of which is directed to the turntable cavity, a sealing mechanism which utilizes a sliding pipe, a telescopic pipe, a funnel and the like to, the downside the sealing tube spout downside is provided with piles groove, pile inslot sliding connection has piles supporting slide block, pile supporting slide block bottom surface with be provided with piles flexible gasbag between the pile groove, pile flexible gasbag downside is provided with piles and transmits to the device outer pushing and piling mechanism after certain height, pile groove top left end wall is fixed and is provided with the horizontal feed groove that the opening is right, horizontal feed groove left end bottom wall is fixed and is provided with the ascending feeding spout of opening, be provided with in the horizontal feed groove left end and utilize the tight centre gripping transmission mechanism of gasbag inflation clamp.

2. The quantitatively packaged stacked layered material conveying apparatus as claimed in claim 1, wherein: the turntable shaft is rotatably connected with the box body, the ratchet wheel belt wheel and the belt wheel are arranged in a belt cavity, an intermittent power mechanism is arranged on the upper side of the belt wheel, a box distribution and supply mechanism is arranged in the feeding chute, left and right feeding grooves with backward openings are fixedly arranged on the front end wall of the top end of the horizontal feeding groove and the stacking groove, left and right feeding blocks are slidably connected in the left and right feeding grooves, a lifting chute with a backward opening is fixedly arranged on the front end wall of the left end of the left and right feeding grooves, a lifting slide block is slidably connected in the lifting chute, a lifting electric guide rail is fixedly arranged on the front end wall of the lifting chute, the lifting electric guide rail is in power sliding connection with the front end of the lifting slide block, a guide groove communicated with the left and right is fixedly arranged on the rear end of the lifting slide block, a guide clamping block is, an output groove with a right opening is fixedly arranged on the right end wall of the bottom end of the stacking groove.

3. The quantitatively packaged stacked layered material conveying apparatus as claimed in claim 1, wherein: response return push mechanism including fixed set up in the turning block of carousel axle bottom, the turning block is located the turning block intracavity, the fixed rotation induction system that is provided with of turning block right-hand member face, the fixed induction system that is provided with of turning block chamber lateral wall, pile groove top reaches it leads to the groove to control the fixed right side that is provided with opening left of feeding groove right-hand member wall, the right side leads to groove right-hand member wall and is provided with the telescopic link that pushes back, rotate induction system rotate with fixed induction system response can control the telescopic link that pushes back starts.

4. The quantitatively packaged stacked layered material conveying apparatus as claimed in claim 1, wherein: sealing mechanism include the rear end set up in sealed slide tube in the sealed tube spout, sealed slide tube is kept away from the terminal surface of carousel with be provided with sealed expansion ring, downside between the sealed tube spout sealed slide tube sliding connection has the funnel piece, communicating hopper groove about the funnel piece internal fixation is provided with, funnel piece side rampart is fixed and is provided with the support ring, the support ring bottom surface with through support ring spring coupling between the sealed tube spout.

5. The quantitatively packaged stacked layered material conveying apparatus as claimed in claim 1, wherein: push away pile up the mechanism including fixed set up in pile up the gas storage trachea of flexible gasbag bottom, gas storage trachea bottom mounting is provided with the gas storage chamber, gas storage intracavity sliding connection has the gas storage piston, gas storage piston bottom surface with through gas storage piston spring coupling between the gas storage chamber, the time delay open circuit between the push away pile up device and the power can be connected to the gas storage piston, push away pile up the device and set up in pile groove bottom left end wall.

6. The quantitatively packaged stacked layered material conveying apparatus as claimed in claim 1, wherein: the clamping transmission mechanism comprises clamping support blocks which are arranged in the left end of the horizontal feeding groove in a bilateral symmetry mode, a pneumatic cavity is fixedly arranged in each clamping support block, an electromagnet is fixedly arranged on the end wall, far away from the lifting electric guide rail, of each pneumatic cavity, a piston is connected in each pneumatic cavity in a sliding mode, the end face, far away from the lifting electric guide rail, of each piston is connected with the pneumatic cavities through piston springs, a clamping air bag is fixedly arranged on the end wall, close to the lifting electric guide rail, of each pneumatic cavity, and a transmission telescopic rod is arranged on the left end wall of the horizontal feeding groove.

7. The quantitatively packaged stacked layered material conveying apparatus as claimed in claim 2, wherein: the intermittent power mechanism comprises a gear shaft fixedly connected with the belt wheel, the gear shaft is rotatably connected with the box body, a gear is fixedly arranged at the top end of the gear shaft and arranged in a gear cavity, the gear can be meshed with an incomplete gear on the left side of the gear shaft and is fixedly connected with the bottom end of a motor shaft, the incomplete gear is rotatably connected with the box body, and a motor is dynamically arranged at the top end of the motor shaft.

8. The quantitatively packaged stacked layered material conveying apparatus as claimed in claim 2, wherein: the partial shipment box feed mechanism including set up in the feeding spout and rather than sliding connection's the slider of feeding, feed the slider bottom surface with through feeding slider spring coupling between the spout, feed the slider upside and evenly be provided with seven partial shipment boxes from top to bottom, be located the horizontal feed inslot topmost partial shipment box sets up between the side centre gripping gasbag of controlling, the partial shipment box bottom end is fixed to be provided with the ascending partial shipment box groove of opening, the partial shipment box top end is fixed set up evenly set up in the ascending spread groove of four openings all around of partial shipment box groove, the partial shipment box bottom surface evenly fixed be provided with four can with spread groove sliding connection's spread groove.

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