CN213168632U - Automatic formula cement packagine machine revolves - Google Patents
Automatic formula cement packagine machine revolves Download PDFInfo
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- CN213168632U CN213168632U CN202020994357.7U CN202020994357U CN213168632U CN 213168632 U CN213168632 U CN 213168632U CN 202020994357 U CN202020994357 U CN 202020994357U CN 213168632 U CN213168632 U CN 213168632U
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Abstract
The utility model discloses an automatic rotary cement packaging machine, which connects single cement bags by a connecting band to form a cement bag band, forms a moving path of the cement bag band by the conveying mechanism, a bag feeding gap and a bag discharging gap, and realizes the movement of the cement bag band by adopting a conveying wheel set, thereby greatly improving the automation degree; be provided with and draw a bag mechanism, pull open the sack that is located the cement bag of material loading mouth, conveniently carry out the material loading of cement, further improvement degree of automation, saved the operation of artifical bagging-off, save the labour, discharging mechanism sets up in drawing a bag disc top to can move down in order to seal the material loading mouth makes discharging mechanism's discharge gate stretch into in the material loading mouth, makes and carries out the in-process of material loading when discharging mechanism, and the dust that cement injection produced is restricted in the cement bag, can not produce the pollution to the production environment, has guaranteed staff's health.
Description
Technical Field
The utility model relates to a cement packing field, concretely relates to automatic formula cement packagine machine revolves.
Background
The existing cement packaging machine mostly adopts a mode of manually bagging and injecting cement by a machine, but the mode has at least the following disadvantages: 1. the bag is manually sleeved, only one cement bag can be sleeved at a time, and the improvement of the production efficiency is greatly limited; 2. in the cement filling process of the machine, the bag mouth of the cement bag is completely opened, so that in the cement filling process, a large amount of dust generated by cement filling can be diffused into the working environment, the environment is greatly polluted, and the health of workers is influenced.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an automatic formula cement packagine machine revolves.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
an automatic rotary cement packaging machine comprises a conveying mechanism, a bag pulling disc, a bag pulling ring and a discharging mechanism, wherein the conveying mechanism comprises two conveying clamping strips and conveying wheel sets which are horizontally arranged oppositely, the conveying wheel sets are uniformly distributed along the conveying clamping strips, and each conveying wheel set comprises a main conveying wheel connected with a conveying motor and an auxiliary conveying wheel driven by the main conveying wheel to rotate; the bag pulling circular ring is sleeved outside the bag pulling circular disc, a bag feeding gap is formed between the bag pulling circular ring and the bag pulling circular disc, the bag pulling circular ring is also provided with a bag feeding gap and a bag discharging gap which are respectively connected with the conveying mechanism and the bag feeding gap, and the conveying wheel set is also arranged on the bag feeding gap, the bag feeding gap and the bag discharging gap;
draw the bag ring and draw the material loading mouth that the cooperation of bag disc formed the even setting of a plurality of circumferences, the material loading mouth is provided with draws bag mechanism, discharge mechanism sets up draw bag disc top to can the downstream is in order to seal the material loading mouth makes discharge mechanism's discharge gate stretches into in the material loading mouth.
Among the automatic formula cement packagine machine that circles round, the cement bag that adopts passes through two liang of continuous formation cement bag belts of connection piece, just the opening of cement bag up, the cement bag belt is followed between two transport holding strips of conveying mechanism or send a bag gap, go into a bag gap and go out and pass in the bag gap, and through setting up conveying mechanism or send a bag gap, go into a bag gap and go out the conveying wheelset on the bag gap and drive the cement bag is followed conveying mechanism or send a bag gap, go into a bag gap and go out the bag gap and remove.
The distance between the two conveying clamping strips, the distance between the bag conveying gap, the distance between the bag inlet gap and the bag outlet gap are preferably set to allow the cement bag strip to pass smoothly and stably without wrinkling, for example, the average thickness of the cement bag strip is 3mm, and the distance between the two conveying clamping strips, the distance between the bag conveying gap, the distance between the bag inlet gap and the distance between the bag outlet gap are 3mm-4 mm.
In the use, cement bag area is followed conveying mechanism or send a gap, go into a gap and go out a gap and remove, and work as the cement bag in cement bag area is located a plurality ofly respectively behind the material loading mouth, draw a bag mechanism to be located in the material loading mouth the cement bag pulls open, immediately discharge mechanism downstream makes discharge mechanism's discharge gate stretches into the material loading mouth in the cement bag, then carries out the material loading of cement, after the material loading finishes, draw a bag mechanism will the cement bag resumes to smooth original state, the conveying wheelset drives again the cement bag area removes.
Compared with the prior art, the utility model has the advantages that:
1. a single cement bag is connected through a connecting belt to form a cement bag belt, a moving path of the cement bag belt is formed by the conveying mechanism, the bag conveying gap, the bag inlet gap and the bag outlet gap, and the cement bag belt moves by adopting a conveying wheel set, so that the degree of automation is greatly improved.
2. Be provided with and draw a bag mechanism, pull open and be located in the material loading mouth the sack of cement bag conveniently carries out the material loading of cement, and further improvement degree of automation has saved the operation of manual bagging-off, saves the labour.
3. Discharge mechanism sets up draw bag disc top to can the downstream is in order to seal the material loading mouth makes discharge mechanism's discharge gate stretches into in the material loading mouth, makes and works as discharge mechanism carries out the in-process of material loading, and the dust that cement injection produced is restricted in the cement bag, can not produce the pollution to production environment, guaranteed staff's health.
The bag pulling mechanism comprises bag pulling groups which are symmetrical to each other, each bag pulling group comprises a bag pulling cylinder, a cross rod, a left inclined rod and a right inclined rod, the left inclined rod and the right inclined rod are arranged on two sides of the cross rod, one end of the left inclined rod is rotatably connected with the cross rod, the other end of the left inclined rod is rotatably connected with the left pull rod, a left pull rod groove which is matched with the left pull rod and limits the moving direction of the left pull rod is arranged in a bag feeding gap, and the left pull rod is arranged in the left pull rod groove and can move back and forth along the left pull rod groove; one end of the right inclined rod is rotatably connected with the cross rod, the other end of the right inclined rod is rotatably connected with the right pull rod, a right pull rod groove which is matched with the right pull rod and limits the moving direction of the right pull rod is arranged in the bag feeding gap, and the right pull rod is arranged in the right pull rod groove and can move back and forth along the right pull rod groove; the telescopic rod of the bag pulling cylinder is connected with the cross rod and can pull the cross rod to be perpendicular to the bag feeding gap to move back and forth close to or far away from the bag feeding gap, one surfaces, facing the bag feeding gap, of the cross rod, the left inclined rod and the right inclined rod are provided with air suction holes, and the air suction holes are connected with the vacuum generating mechanism. When a cement bag is positioned in the feeding port, the bag pulling cylinder firstly pushes the cross rod to move towards the cement bag so that the cross rod, the left inclined rod and the right inclined rod form a straight line, bag pulling groups positioned on two sides of the cement bag clamp the cement bag, and then the vacuum generating mechanism generates negative pressure so that the cement bag is sucked by the suction hole, then the bag pulling cylinder drives the cross rod to move, however, because one end of the left inclined rod is rotatably connected with one end of the cross rod, and the other end of the left inclined rod is rotatably connected with the left pull rod, and is matched with the left pull rod and the left pull rod groove, one end of the left inclined rod connected with the left pull rod can only move along the extending direction of the pull rod groove, and the other end of the left pull rod connected with the cross rod moves along the direction of the cross rod far away from the cement bag, and the right pull rod moves in the same direction, therefore, after the bag pulling cylinder pulls the cross rod, bag pulling sets positioned on two sides of the cement bag are matched to form a hexagon, and the cement bag positioned in the feeding port is pulled to be opened to form a hexagonal opening because the cement bag is sucked by the air suction hole; after cement injection is finished, the bag pulling cylinder pushes the cross rod, so that the cross rod, the left inclined rod and the right inclined rod of the bag pulling group form a straight line again, the bag mouth of the cement bag adsorbed on the bag pulling cylinder by the air suction hole is reset to be in a flat initial state, and the conveying wheel group continues to drive the cement bag belt to move.
The further technical scheme can also be that the discharging mechanism comprises a discharging disc, and the discharging hole is formed below the discharging disc and corresponds to each feeding hole respectively.
The technical scheme can also be that in order to seal the opening of the cement bag in the cement injection process, the discharge port is provided with a rubber nozzle, the opening of the rubber nozzle is communicated with the discharge port, and after the discharge mechanism moves downwards to a set position, the rubber nozzle and the bag pulling mechanism are mutually matched to fix the cement bag.
The further technical scheme can also be that in order to better seal the opening of the cement bag, the cross-sectional area of the rubber nozzle is gradually increased from top to bottom.
The technical scheme is that the cement bag lifting device further comprises a material supporting mechanism, and the material supporting mechanism is arranged below the cement bag along the advancing direction of the cement bag. The cement bag after the cement injection is completed is heavy, so that the loads on the conveying mechanism, the bag feeding gap and the bag discharging gap are large, the cement bag can be broken, or the cement bag can break away from the conveying mechanism, the bag feeding gap and the bag discharging gap, or the conveying mechanism, the bag feeding gap and the bag discharging gap can be damaged, and therefore the material supporting mechanism has the effects of breaking away the weight of the cement bag after the cement injection is completed and assisting the conveying mechanism, the bag feeding gap and the bag discharging gap to drive the cement bag to move.
The technical scheme includes that the cement bag further comprises a limiting mechanism, and the limiting mechanism comprises limiting plates which are oppositely arranged on two sides of the cement bag and extend along the moving direction of the cement bag. The limiting plates are used for limiting the positions of the cement belts from the two sides of the cement bags and preventing the cement bags from falling from the conveying mechanism, the bag conveying gap, the bag inlet gap and the bag outlet gap or from the material supporting mechanism after cement injection is finished.
Drawings
Fig. 1 is a schematic structural view of an automatic rotary cement packaging machine according to an embodiment of the present invention.
Fig. 2 is another schematic view of an automatic rotary cement packaging machine according to an embodiment of the present invention.
Fig. 3 is an enlarged view of fig. 1A.
Fig. 4 is a schematic structural diagram of the bag pulling mechanism during bag pulling.
Fig. 5 is a schematic structural view of a cross bar of the bag pulling mechanism.
Fig. 6 is a schematic structural view of a cement bag strip.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention.
The embodiment discloses an automatic rotary cement packaging machine which comprises a conveying mechanism 1, a bag pulling disc 2, a bag pulling circular ring 3 and a discharging mechanism, wherein the conveying mechanism 1 comprises two conveying clamping strips 11 and a conveying wheel set 12 which are horizontally arranged oppositely, the conveying wheel set 12 is uniformly distributed along the conveying clamping strips 11, and the conveying wheel set 12 comprises a main conveying wheel connected with a conveying motor and an auxiliary conveying wheel driven by the main conveying wheel to rotate; the bag pulling circular ring 3 is sleeved outside the bag pulling circular disc 2, a bag feeding gap 101 is formed between the bag pulling circular ring 3 and the bag pulling circular disc 2, the bag pulling circular ring 3 is further provided with a bag feeding gap 102 and a bag discharging gap 103 which are respectively connected with the conveying mechanism 1 and the bag feeding gap 101, and the conveying wheel set 12 is further arranged on the bag feeding gap 101, the bag feeding gap 102 and the bag discharging gap 103; draw bag ring 3 and draw bag disc 2 cooperation to form a plurality of circumferences and evenly set up at material loading mouth 21, material loading mouth 21 is provided with draws bag mechanism 5, discharge mechanism sets up draw bag disc 2 top to can move down in order to seal material loading mouth 21 makes discharge mechanism's discharge gate 41 stretches into in the material loading mouth 21.
Among the automatic formula cement packagine machine that circles round, the cement bag 31 that adopts links to each other two by two through connecting piece 32 and forms cement bag area 33, just cement bag 31's opening is up, cement bag area 33 is followed between two transport holding strip 11 of conveying mechanism 1 or pass in sending a bag gap 101, income bag gap 102 and play bag gap 103, and through setting up conveying mechanism 1 or send a bag gap 101, go into bag gap 102 and go out the conveying wheelset 12 on the bag gap 103 and drive cement bag 31 follows conveying mechanism 1 or send a bag gap 101, go into bag gap 102 and go out bag gap 103 and remove.
In the embodiment, the average thickness of the cement bag belt 33 is 3mm, and the distance between the two conveying holding strips 11, the bag conveying gap 101, the bag inlet gap 102 and the bag outlet gap 103 is 3.5 mm.
In the use, cement bag area 33 is followed conveying mechanism 1 or send a gap 101, go into a gap 102 and go out a gap 103 and remove, and work as cement bag 31 of cement bag area 33 is located a plurality ofly respectively behind the material loading mouth 21, draw a bag mechanism 5 will be located in the material loading mouth 21 cement bag 31 pulls open, immediately discharge mechanism moves down and makes discharge mechanism's discharge gate 41 stretch into material loading mouth 21 in the cement bag 31, then carries out the material loading of cement, after finishing loading, draw a bag mechanism 5 will cement bag 31 resumes to smooth original condition, conveying wheel group 12 drives again cement bag area 33 removes.
Compared with the prior art, the automatic formula cement packagine machine that revolves that this embodiment discloses's advantage lies in:
1. the single cement bags 31 are connected through a connecting belt to form a cement bag belt 33, a moving path of the cement bag belt 33 is formed through the conveying mechanism 1, the bag conveying gap 101, the bag inlet gap 102 and the bag outlet gap 103, the cement bag belt 33 is moved by the conveying wheel set 12, and the automation degree is greatly improved.
2. Be provided with and draw a bag mechanism 5, pull open and be located in the material loading mouth 21 cement bag 31's sack conveniently carries out the material loading of cement, and further improvement degree of automation has saved the operation of manual bagging-off, saves the labour.
3. Discharge mechanism sets up draw bag disc 2 top to can the downstream in order to seal the material loading mouth 21 makes discharge mechanism's discharge gate 41 stretches into in the material loading mouth 21, makes and works as discharge mechanism carries out the in-process of material loading, and the dust that cement injection produced is restricted in among the cement bag 31, can not produce the pollution to the production environment, has guaranteed staff's health.
Specifically, the bag pulling mechanism 5 comprises bag pulling groups (51, 52) which are symmetrical to each other, the bag pulling groups (51, 52) comprise a bag pulling cylinder 511, a cross bar 512, and a left diagonal bar 513 and a right diagonal bar 514 which are arranged on two sides of the cross bar 512, wherein one end of the left diagonal bar 513 is rotatably connected with the cross bar 512, the other end of the left diagonal bar is rotatably connected with a left pull bar 515, a left pull bar groove 516 which is matched with the left pull bar 515 and limits the moving direction of the left pull bar 515 is arranged in the bag feeding gap 101, and the left pull bar 515 is arranged in the left pull bar groove 516 and can move back and forth along the left pull bar groove 516; one end of the right inclined rod 514 is rotatably connected with the cross rod 512, the other end of the right inclined rod is rotatably connected with a right pull rod 517, a right pull rod groove 518 which is matched with the right pull rod 517 and limits the moving direction of the right pull rod 517 is arranged in the bag feeding gap 101, and the right pull rod 517 is arranged in the right pull rod groove 518 and can move back and forth along the right pull rod groove 518; the telescopic rod of the bag pulling cylinder 511 is connected with the cross rod 512 and can pull the cross rod 512 to be perpendicular to the bag feeding gap 101 to move back and forth close to or far away from the bag feeding gap 101, one surface of the cross rod 512, one surface of the left inclined rod 513 and one surface of the right inclined rod 514, which face the bag feeding gap 101, are provided with air suction holes 519, and the air suction holes 519 are connected with a vacuum generating mechanism. When the cement bag 31 is located in the feeding port 21, the bag pulling cylinder 511 first pushes the cross bar 512 to move towards the cement bag 31 so that the cross bar 512, the left diagonal bar 513 and the right diagonal bar 514 form a straight line, bag pulling groups (51, 52) located at two sides of the cement bag 31 clamp the cement bag 31, then the vacuum generating mechanism generates negative pressure so that the suction hole 519 sucks the cement bag 31, then the bag pulling cylinder 511 drives the cross bar 512 to move, but because one end of the left diagonal bar 513 is rotatably connected with one end of the cross bar 512 and the other end is rotatably connected with the left diagonal bar 515, due to the cooperation of the left diagonal bar 515 and the left diagonal bar groove 516, the end of the left diagonal bar 513 connected with the left diagonal bar 515 can only move along the extending direction of the draw bar groove, and the end of the left diagonal bar 515 connected with the cross bar 512 moves away from the cement bag 31, the movement of the right pull rod 517 is the same as that of the right pull rod 517, so that after the bag pulling cylinder 511 pulls the cross bar 512, bag pulling groups (51, 52) located at two sides of the cement bag 31 are matched to form a hexagon, and the cement bag 31 located in the feeding hole 21 is pulled to open to form a hexagonal opening because the suction hole 519 sucks the cement bag 31; after cement is injected, the bag pulling cylinder 511 pushes the cross rod 512, so that the cross rod 512, the left inclined rod 513 and the right inclined rod 514 of the bag pulling group (51, 52) form a straight line again, the bag mouth of the cement bag 31 adsorbed on the bag pulling cylinder is driven to return to a flat initial state, and the conveying wheel set 12 continues to drive the cement bag belt 33 to move.
Specifically, discharge mechanism includes ejection of compact dish 4, discharge gate 41 sets up the below of ejection of compact dish 4 and correspond each material loading mouth 21 respectively.
Specifically, in order to seal the mouth of the cement bag 31 during cement injection, the discharge port 41 is provided with a rubber nozzle 42, an opening 43 of the rubber nozzle 42 is communicated with the discharge port 41, and after the discharge mechanism moves downwards to a set position, the rubber nozzle 42 and the bag pulling mechanism 5 cooperate with each other to fix the cement bag 31.
Specifically, in order to facilitate the rubber nozzle 42 to better seal the mouth of the cement bag 31, the cross-sectional area of the rubber nozzle 42 gradually increases from top to bottom.
Specifically, the material supporting mechanism 6 is further included, and the material supporting mechanism 6 is arranged below the cement bag 31 along the advancing direction of the cement bag 31. Since the cement bag 31 after the cement injection is completed has a heavy weight, the load on the conveying mechanism 1, the bag feeding gap 101, the bag feeding gap 102, and the bag discharging gap 103 is large, and the cement bag 31 may break, break away from the conveying mechanism 1, the bag feeding gap 101, the bag feeding gap 102, and the bag discharging gap 103, or damage the conveying mechanism 1, the bag feeding gap 101, the bag feeding gap 102, and the bag discharging gap 103, the material supporting mechanism 6 functions to break away the weight of the cement bag 31 after the cement injection is completed, and assist the conveying mechanism 1, the bag feeding gap 101, the bag feeding gap 102, and the bag discharging gap 103 to move the cement bag 33. In this embodiment, the material holding mechanism 6 is a conveyor belt.
Specifically, the cement bag limiting mechanism further comprises limiting plates 7 which are oppositely arranged on two sides of the cement bag 31 and extend along the moving direction of the cement bag 31. The limiting plate 7 is used for limiting the position of the cement belt from two sides of the cement bag 31, and preventing the cement bag 31 from falling from the conveying mechanism 1, the bag conveying gap 101, the bag inlet gap 102 and the bag outlet gap 103 or from the material supporting mechanism 6 after cement is injected.
The above is only the concrete embodiment of the present invention, and not therefore the limit of the patent scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the patent protection scope of the present invention.
Claims (7)
1. An automatic rotary cement packaging machine is characterized by comprising a conveying mechanism, a bag pulling disc, a bag pulling ring and a discharging mechanism, wherein the conveying mechanism comprises two conveying clamping strips and conveying wheel sets which are horizontally arranged oppositely, the conveying wheel sets are uniformly distributed along the conveying clamping strips, and each conveying wheel set comprises a main conveying wheel connected with a conveying motor and an auxiliary conveying wheel driven by the main conveying wheel to rotate;
the bag pulling circular ring is sleeved outside the bag pulling circular disc, a bag feeding gap is formed between the bag pulling circular ring and the bag pulling circular disc, the bag pulling circular ring is also provided with a bag feeding gap and a bag discharging gap which are respectively connected with the conveying mechanism and the bag feeding gap, and the conveying wheel set is also arranged on the bag feeding gap, the bag feeding gap and the bag discharging gap;
draw the bag ring and draw the material loading mouth that the cooperation of bag disc formed the even setting of a plurality of circumferences, the material loading mouth is provided with draws bag mechanism, discharge mechanism sets up draw bag disc top to can the downstream is in order to seal the material loading mouth makes discharge mechanism's discharge gate stretches into in the material loading mouth.
2. The automatic rotary cement packaging machine according to claim 1, wherein the bag pulling mechanism comprises bag pulling groups which are symmetrical to each other, the bag pulling groups comprise bag pulling cylinders, a cross bar, and a left diagonal bar and a right diagonal bar which are arranged on both sides of the cross bar, wherein one end of the left diagonal bar is rotatably connected with the cross bar, the other end of the left diagonal bar is rotatably connected with the left pull bar, a left pull bar groove which is matched with the left pull bar and limits the movement direction of the left pull bar is arranged in the bag feeding gap, and the left pull bar is arranged in the left pull bar groove and can move back and forth along the left pull bar groove; one end of the right inclined rod is rotatably connected with the cross rod, the other end of the right inclined rod is rotatably connected with the right pull rod, a right pull rod groove which is matched with the right pull rod and limits the moving direction of the right pull rod is arranged in the bag feeding gap, and the right pull rod is arranged in the right pull rod groove and can move back and forth along the right pull rod groove; the telescopic rod of the bag pulling cylinder is connected with the cross rod and can pull the cross rod to be perpendicular to the bag feeding gap to move back and forth close to or far away from the bag feeding gap, one surfaces, facing the bag feeding gap, of the cross rod, the left inclined rod and the right inclined rod are provided with air suction holes, and the air suction holes are connected with the vacuum generating mechanism.
3. The automatic rotary cement packaging machine according to claim 2, wherein said discharging mechanism comprises a discharging tray, and said discharging port is disposed below said discharging tray and corresponds to each feeding port.
4. The automatic rotary cement packaging machine according to claim 3, wherein said discharge port is provided with a rubber nozzle, an opening of said rubber nozzle communicates with said discharge port, and said rubber nozzle and said bag pulling mechanism cooperate with each other to fix the cement bag after said discharge mechanism is moved down to a set position.
5. The automatic rotary cement packing machine according to claim 4, wherein the cross-sectional area of said rubber nozzle is gradually increased from top to bottom.
6. The automatic rotary cement packaging machine according to claim 5, further comprising a material holding mechanism disposed below the cement bag in an advancing direction of the cement bag.
7. The automatic rotary cement packaging machine according to claim 6, further comprising a limiting mechanism, wherein the limiting mechanism comprises limiting plates oppositely arranged at two sides of the cement bag and extending along the moving direction of the cement bag.
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CN202020994357.7U CN213168632U (en) | 2020-06-03 | 2020-06-03 | Automatic formula cement packagine machine revolves |
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CN202020994357.7U CN213168632U (en) | 2020-06-03 | 2020-06-03 | Automatic formula cement packagine machine revolves |
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