CN212267944U - Intelligent cold-stretching uniform film covering packaging machine - Google Patents

Abstract

The utility model relates to an intelligent cold-stretching uniform film covering packaging machine in the technical field of packaging equipment, which comprises a main conveyer belt and a film covering execution component, wherein the film covering execution component comprises a frame, a film conveying mechanism, a lifting platform, a film covering mechanism and a film sucking mechanism; and a shaping component is arranged at a position close to the feeding end of the main conveying belt so as to flatten four side parts of the material stack. The film covering machine can realize adaptive film covering conversion of a multi-proportion material stack, effectively avoid the defects of uneven film covering, unevenness and the like, greatly reduce the film consumption rate and improve the film covering packaging quality.

Description

Intelligent cold-stretching uniform film covering packaging machine

Technical Field

The utility model relates to a equipment for packing technical field particularly, is intelligent cold drawing even mantle packing machine.

Background

At present, cold-stretching film covering equipment is already applied.

The price of the powder, especially the ultra-light fine powder, is high, and the storage and the transportation of the material stack are important links related to the stability of the characteristics of the powder. The traditional winding type packaging process has the defects of poor sealing performance, poor packaging stability of the material stacks and the like, and brings great challenges to storage and transportation of the material stacks. At present, the existing variable-specification cold-stretching film covering equipment mainly comprises core module units such as a film conveying bag making device, a vacuum film opening device, a gas-liquid combined film pulling device, a multi-motor cooperative film covering device and the like.

However, before the stack is conveyed to the film covering station, the four side parts of the stack are not always kept in a relatively flat state, and may be uneven, so that the protruding parts are often easily damaged during film covering; however, in the prior art, the four side parts of the material stack are shaped manually, so that the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligent cold drawing even covering membrane packagine machine can realize the adaptability transform covering membrane of many proportion specification material buttress, effectively avoids defects such as covering membrane is inhomogeneous, unevenness, and greatly reduced membrane consumption rate promotes covering membrane packing quality.

The purpose of the utility model is realized like this: an intelligent cold-drawing uniform film covering packaging machine comprises a main conveying belt (3) and a film covering executing component (1) corresponding to the position of the main conveying belt (3), wherein the film covering executing component (1) comprises a rack (101), a film conveying mechanism (102), a lifting platform (103), a film covering mechanism (104) and a film sucking mechanism (105), the lifting platform (103) can be automatically installed on the rack (101) in a lifting mode, the film conveying mechanism (102) is installed at the top of the rack (101) and used for conveying films downwards, the film covering mechanism (104) is installed on the lifting platform (103) and always located right below the film conveying mechanism (102), two pairs of film covering mechanisms (104) are arranged, each pair of film covering mechanisms (104) are arranged in an oblique diagonal arrangement mode, and the film sucking mechanism (105) is arranged on each film covering mechanism (104);

a shaping component (2) is arranged at a position close to the feeding end of the main conveying belt (3) so as to flatten the four side parts of the material stack (4);

the shaping component (2) comprises:

the forward guide rail seat (201) horizontally extends along the conveying direction of the main conveying belt (3);

the forward moving movable seat (202) is movably arranged on the forward guide rail seat (201) along the conveying direction of the main conveying belt (3);

the central column (204) is vertically arranged at the central position of the upper side of the forward moving movable seat (202);

the conveying bracket (208) is rotatably connected to the upper end of the central column (204) and can rotate around the axis of the central column (204);

the horizontal rotation driving mechanism is arranged on the conveying bracket (208) and is used for driving the conveying bracket (208) to rotate;

the conveying belt component (213) with the automatic driving performance is arranged on the conveying support (208) and used for supporting the material stack (4), and the discharging end of the conveying belt component (213) is opposite to and close to the feeding end of the main conveying belt (3) after shaping is completed;

a pair of lateral moving guide rail seats (214) which are respectively positioned at two sides of the forward moving guide rail seat (201), and the extending direction of the lateral moving guide rail seats is vertical to the extending direction of the forward moving guide rail seat (201);

a pair of side moving frames which are respectively arranged on the two side moving guide rail seats (214) in a horizontal sliding way, wherein the moving directions of the two side moving frames are opposite, and the side moving frames are used for clamping the material stack (4) to flatten the four side parts of the material stack (4); and

the cylinder barrels of the two side moving cylinders (215) are respectively arranged on the two side moving guide rail bases (214), and the piston rods of the two side moving cylinders (215) are respectively connected with the two side moving frames.

Furthermore, each side moving frame comprises a side moving seat (216) and an exchangeable side pressing seat (217), the side moving seat (216) is slidably mounted on the side moving guide rail seat (214), the side moving seat (216) is connected with a piston rod of a side moving cylinder (215), the exchangeable side pressing seat (217) is detachably mounted on a flattening side of the side moving seat (216), the exchangeable side pressing seat (217) protrudes towards the material stack (4), a rigid plastic plate (218) with a vertical plate structure is mounted on the exchangeable side pressing seat (217), and the moving direction of the side moving seat (216) is perpendicular to the plate surface of the plastic plate (218).

Furthermore, each side shifting seat (216) is provided with a pair of horizontally extending assembly guide rails (219), the replaceable side pressing seat (217) is provided with a pair of installation grooves which are respectively matched with the two assembly guide rails (219) in an inserted manner, and the replaceable side pressing seat (217) is installed on the side shifting seat (216) through the pair of assembly guide rails (219).

Further, a pair of limiting mechanisms are mounted on the side shifting seat (216) to respectively abut against and limit two sides of the replaceable side pressing seat (217); the limiting mechanism comprises an edge limiting plate (220) and a fastening piece (221), wherein the edge limiting plate (220) is installed on the side shifting seat (216) through the fastening piece (221) and abuts against the side part of the replaceable side pressing seat (217).

Further, the conveyor belt assembly (213) comprises a plurality of conveyor rollers (213 a) which are linearly arranged along the conveying direction, two shaft ends of the conveyor rollers (213 a) are rotatably connected with the conveying support (208), any two adjacent conveyor rollers (213 a) are close to each other, the conveyor belt assembly (213) further comprises a belt body (213 b), and the belt body (213 b) is sleeved on all the conveyor rollers (213 a) and is used for supporting the material stack (4); conveyor belt subassembly (213) dispose drive assembly, drive assembly is including installing transport driving motor (209) on delivery support (208), still including transmission fit's transport drive gear (210), hold-in range (211), driven gear (212) in proper order, and the most conveying roller (213 a) that is close main conveyer belt (3) are as the drive roller, and remaining conveying roller (213 a) are the driven roller, transport drive gear (210) suit is on the output shaft of transport driving motor (209), driven gear (212) coaxial suit is on the conveying roller (213 a) roller axle that plays the drive effect.

Further, the horizontal rotation driving mechanism comprises a gear ring (205), a traveling gear (206) and a horizontal rotation motor (207), the gear ring (205) is coaxially sleeved on the central column (204), the horizontal rotation motor (207) is installed on the conveying support (208), the traveling gear (206) is sleeved on an output shaft of the horizontal rotation motor (207), and the traveling gear (206) is in rolling engagement with an outer tooth edge of the gear ring (205).

Further, the forward moving movable seat (202) is horizontally and slidably mounted on the forward moving guide rail seat (201), the sliding direction is consistent with the conveying direction, the forward moving guide rail seat (201) is provided with a forward pushing cylinder (203), a cylinder barrel of the forward pushing cylinder (203) is mounted on the forward moving guide rail seat (201), and a piston rod of the forward pushing cylinder (203) is connected with the forward moving movable seat (202).

The beneficial effects of the utility model reside in that:

1) the film covering method has the advantages that the film covering can be adaptively changed for the material stacks with multiple proportions, the defects of non-uniform film covering, unevenness and the like are effectively avoided, the film consumption rate is greatly reduced, and the film covering packaging quality is improved;

2) the four side parts of the material stack can be shaped before film covering, so that the four side parts of the material stack are in a relatively flat state, and the defects of uneven film covering and unevenness are avoided, the existing automatic stacking machine is firstly adopted to stack on a conveyor belt component to form the material stack, then lateral moving cylinders on two sides are simultaneously started to drive two side moving frames to move relatively, plastic plates on two sides moving frames press two opposite side parts of the material stack until the two opposite side parts are flat, then a flat rotating motor is started to enable a walking gear to roll and engage a gear ring, so that the conveyor belt component, the conveyor belt component and the material stack rotate horizontally for 90 degrees together, the other two opposite side parts of the material stack are respectively opposite to the two side moving frames, then the flattening action is repeated, when the four side parts of the material stack are in the relatively flat state, the positions of the conveyor belt component and the direction of the conveyor belt component are consistent with the direction of a main conveyor belt, then utilize the antedisplacement cylinder to promote the antedisplacement sliding seat for the discharge end of conveyer belt subassembly is just to just being close to the feed end of main conveyer belt, then starts to carry driving motor, orders about the conveying roller and rotates, carries out the horizontal transport action with the drive area body, carries the material buttress after will shaping on the main conveyer belt.

Drawings

Fig. 1 is a main layout diagram of the present invention.

Fig. 2 is a layout view of the shaping member.

Fig. 3 is a schematic diagram of the shaping principle of the shaping component.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, an intelligent cold-stretching uniform film covering packaging machine includes a main conveyor belt 3 and a film covering execution component 1 corresponding to the position of the main conveyor belt 3, the film covering execution component 1 includes a frame 101, a film feeding mechanism 102, a lifting table 103, a film covering mechanism 104 and a film sucking mechanism 105, the lifting table 103 can be automatically installed on the frame 101 in a lifting manner, the film feeding mechanism 102 is installed at the top of the frame 101 and used for feeding films downwards, the film covering mechanism 104 is installed on the lifting table 103 and always located under the film feeding mechanism 102, two pairs of film covering mechanisms 104 are provided, each pair of film covering mechanisms 104 are arranged in an oblique diagonal arrangement manner, and the film sucking mechanism 105 is arranged on each film covering mechanism 104.

Near the feed end of the main conveyor belt 3, a shaping element 2 is arranged to flatten the four sides of the stack 4.

The shaping member 2 includes:

a forward guide rail seat 201 extending horizontally in the conveying direction of the main conveyor belt 3;

a forward moving movable base 202 movably provided on the forward guide rail base 201 in the conveying direction of the main conveyor 3;

a central column 204 vertically installed at the central position of the upper side of the forward moving seat 202;

the conveying bracket 208 is rotatably connected to the upper end of the central column 204 and can rotate around the axis of the central column 204;

the horizontal rotation driving mechanism is arranged on the conveying bracket 208 and is used for driving the conveying bracket 208 to rotate;

the conveying belt component 213 with the self-driving performance is arranged on the conveying bracket 208 and used for supporting the material stack 4, and the discharge end of the conveying belt component 213 is opposite to and close to the feed end of the main conveying belt 3 after shaping is completed;

a pair of lateral movement guide rail holders 214 which are respectively positioned at both sides of the advancing guide rail holder 201 and have an extending direction perpendicular to the extending direction of the advancing guide rail holder 201;

a pair of side moving frames which are respectively horizontally and slidably arranged on the two side moving guide rail seats 214, wherein the moving directions of the two side moving frames are opposite, and the side moving frames are used for clamping the material stack 4 to flatten the four side parts of the material stack 4; and

the cylinder barrels of the two side moving cylinders 215 are respectively arranged on the two side moving guide rail bases 214, and the piston rods of the two side moving cylinders 215 are respectively connected with the two side moving frames.

Each side moving frame comprises a side moving seat 216 and an exchangeable side pressing seat 217, the side moving seat 216 is slidably mounted on a side moving guide rail seat 214, the side moving seat 216 is connected with a piston rod of a side moving air cylinder 215, the exchangeable side pressing seat 217 is detachably mounted on a pressing side of the side moving seat 216, the exchangeable side pressing seat 217 protrudes towards the direction of the stock pile 4, a hard plastic plate 218 with a vertical plate structure is mounted on the exchangeable side pressing seat 217, and the moving direction of the side moving seat 216 is perpendicular to the plate surface of the plastic plate 218. So as to freely replace the replaceable side pressing seats 217 with different protruding sizes according to the size of the material stack 4.

Each side shifting base 216 is provided with a pair of horizontally extending assembly guide rails 219, the replaceable side pressing base 217 is provided with a pair of mounting grooves which are respectively matched with the two assembly guide rails 219 in an inserting manner, and the replaceable side pressing base 217 is mounted on the side shifting base 216 through the pair of assembly guide rails 219.

A pair of limiting mechanisms are arranged on the side shifting seat 216 to respectively abut against and limit two sides of the replaceable side pressing seat 217; the limiting mechanism comprises a side limiting plate 220 and a fastener 221, wherein the side limiting plate 220 is installed on the side shifting seat 216 through the fastener 221 and abuts against the side part of the replaceable side pressing seat 217.

The conveying belt assembly 213 comprises a plurality of conveying rollers 213a arranged linearly along the conveying direction, two shaft ends of the conveying rollers 213a are rotatably connected with the conveying bracket 208, any two adjacent conveying rollers 213a are close to each other, the conveying belt assembly 213 further comprises a belt body 213b, and the belt body 213b is sleeved on all the conveying rollers 213a and is used for supporting the material stack 4; the conveying belt assembly 213 is provided with a driving component, the driving component comprises a conveying driving motor 209 arranged on the conveying support 208, and further comprises a conveying driving gear 210, a synchronous belt 211 and a driven gear 212 which are in transmission fit in sequence, the conveying roller 213a closest to the main conveying belt 3 serves as a driving roller, the other conveying rollers 213a are driven rollers, the conveying driving gear 210 is sleeved on an output shaft of the conveying driving motor 209, and the driven gear 212 is coaxially sleeved on a roller shaft of the conveying roller 213a which plays a driving role.

The horizontal rotation driving mechanism comprises a gear ring 205, a walking gear 206 and a horizontal rotation motor 207, wherein the gear ring 205 is coaxially sleeved on the central column 204, the horizontal rotation motor 207 is installed on the conveying support 208, the walking gear 206 is sleeved on an output shaft of the horizontal rotation motor 207, and the walking gear 206 is in rolling engagement with an outer tooth edge of the gear ring 205.

The forward moving movable seat 202 is horizontally and slidably mounted on the forward moving guide rail seat 201, the sliding direction is consistent with the conveying direction, the forward moving guide rail seat 201 is provided with a forward pushing cylinder 203, the cylinder barrel of the forward pushing cylinder 203 is mounted on the forward moving guide rail seat 201, and the piston rod of the forward pushing cylinder 203 is connected with the forward moving movable seat 202.

Firstly, stacking on a conveyor belt assembly 213 by using the existing automatic stacker to form a stack 4, then simultaneously starting lateral moving cylinders 215 at two sides to drive two lateral moving frames to move relatively, so that plastic plates 218 of the two lateral moving frames press two opposite side portions of the stack 4 until the two opposite side portions are flat, then starting a flat rotating motor 207 to enable a walking gear 206 to be in rolling engagement with a gear ring 205, so that the conveyor bracket 208, the conveyor belt assembly 213 and the stack 4 rotate horizontally for 90 degrees together, so that the other two opposite side portions of the stack 4 are respectively opposite to the two lateral moving frames, then repeating the above-mentioned flattening action, when the four side portions of the stack 4 are in a relatively flat state, firstly adjusting the positions of the conveyor bracket 208 and the conveyor belt assembly 213, so that the direction of the conveyor belt assembly 213 is consistent with the direction of a main conveyor belt 3, and then utilizing a forward pushing cylinder 203 to push a forward moving movable seat 202, so that the discharge end of the conveying belt assembly 213 is opposite to and close to the feed end of the main conveying belt 3, and then the conveying driving motor 209 is started to drive the conveying roller 213a to rotate so as to drive the belt body 213b to perform horizontal conveying action, and convey the shaped material stack 4 onto the main conveying belt 3.

The above are preferred embodiments of the present invention, and those skilled in the art can make various changes or improvements on the above embodiments without departing from the general concept of the present invention, and such changes or improvements should fall within the protection scope of the present invention.

Claims (7)

1. An intelligent cold-drawing uniform film covering packaging machine comprises a main conveying belt (3) and a film covering executing component (1) corresponding to the position of the main conveying belt (3), wherein the film covering executing component (1) comprises a rack (101), a film conveying mechanism (102), a lifting platform (103), a film covering mechanism (104) and a film sucking mechanism (105), the lifting platform (103) can be automatically installed on the rack (101) in a lifting mode, the film conveying mechanism (102) is installed at the top of the rack (101) and used for conveying films downwards, the film covering mechanism (104) is installed on the lifting platform (103) and always located right below the film conveying mechanism (102), two pairs of film covering mechanisms (104) are arranged, each pair of film covering mechanisms (104) are arranged in an oblique diagonal arrangement mode, and the film sucking mechanism (105) is arranged on each film covering mechanism (104);

the method is characterized in that: a shaping component (2) is arranged at a position close to the feeding end of the main conveying belt (3) so as to flatten the four side parts of the material stack (4);

the shaping component (2) comprises:

the forward guide rail seat (201) horizontally extends along the conveying direction of the main conveying belt (3);

the forward moving movable seat (202) is movably arranged on the forward guide rail seat (201) along the conveying direction of the main conveying belt (3);

the central column (204) is vertically arranged at the central position of the upper side of the forward moving movable seat (202);

the conveying bracket (208) is rotatably connected to the upper end of the central column (204) and can rotate around the axis of the central column (204);

the horizontal rotation driving mechanism is arranged on the conveying bracket (208) and is used for driving the conveying bracket (208) to rotate;

the conveying belt component (213) with the automatic driving performance is arranged on the conveying support (208) and used for supporting the material stack (4), and the discharging end of the conveying belt component (213) is opposite to and close to the feeding end of the main conveying belt (3) after shaping is completed;

a pair of lateral moving guide rail seats (214) which are respectively positioned at two sides of the forward moving guide rail seat (201), and the extending direction of the lateral moving guide rail seats is vertical to the extending direction of the forward moving guide rail seat (201);

a pair of side moving frames which are respectively arranged on the two side moving guide rail seats (214) in a horizontal sliding way, wherein the moving directions of the two side moving frames are opposite, and the side moving frames are used for clamping the material stack (4) to flatten the four side parts of the material stack (4); and

the cylinder barrels of the two side moving cylinders (215) are respectively arranged on the two side moving guide rail bases (214), and the piston rods of the two side moving cylinders (215) are respectively connected with the two side moving frames.

2. The intelligent cold-stretching uniform film covering packaging machine as claimed in claim 1, wherein: each side moving frame comprises a side moving seat (216) and an exchangeable side pressing seat (217), the side moving seat (216) is slidably mounted on a side moving guide rail seat (214), the side moving seat (216) is connected with a piston rod of a side moving cylinder (215), the exchangeable side pressing seat (217) is detachably mounted on the pressing side of the side moving seat (216), the exchangeable side pressing seat (217) protrudes towards the material pile (4), a plastic plate (218) with a vertical plate structure is mounted on the exchangeable side pressing seat (217), and the moving direction of the side moving seat (216) is perpendicular to the plate surface of the plastic plate (218).

3. The intelligent cold-stretching uniform film covering packaging machine as claimed in claim 2, wherein: each side shifting seat (216) is provided with a pair of horizontally extending assembling guide rails (219), the replaceable side pressing seat (217) is provided with a pair of mounting grooves which are respectively in plug-in fit with the two assembling guide rails (219), and the replaceable side pressing seat (217) is mounted on the side shifting seat (216) through the pair of assembling guide rails (219).

4. The intelligent cold-stretching uniform film covering packaging machine as claimed in claim 3, wherein: a pair of limiting mechanisms are arranged on the side moving seat (216) to respectively abut against and limit two sides of the replaceable side pressing seat (217); the limiting mechanism comprises an edge limiting plate (220) and a fastening piece (221), wherein the edge limiting plate (220) is installed on the side shifting seat (216) through the fastening piece (221) and abuts against the side part of the replaceable side pressing seat (217).

5. The intelligent cold-stretching uniform film covering packaging machine as claimed in claim 1, wherein: the conveying belt assembly (213) comprises a plurality of conveying rollers (213 a) which are linearly arranged along the conveying direction, two shaft ends of each conveying roller (213 a) are rotatably connected with a conveying support (208), any two adjacent conveying rollers (213 a) are close to each other, the conveying belt assembly (213) further comprises a belt body (213 b), and the belt body (213 b) is sleeved on all the conveying rollers (213 a) and used for supporting the material stack (4); conveyor belt subassembly (213) dispose drive assembly, drive assembly is including installing transport driving motor (209) on delivery support (208), still including transmission fit's transport drive gear (210), hold-in range (211), driven gear (212) in proper order, and the most conveying roller (213 a) that is close main conveyer belt (3) are as the drive roller, and remaining conveying roller (213 a) are the driven roller, transport drive gear (210) suit is on the output shaft of transport driving motor (209), driven gear (212) coaxial suit is on the conveying roller (213 a) roller axle that plays the drive effect.

6. The intelligent cold-stretching uniform film covering packaging machine as claimed in claim 1, wherein: the horizontal rotation driving mechanism comprises a gear ring (205), a walking gear (206) and a horizontal rotation motor (207), the gear ring (205) is coaxially sleeved on the central column (204), the horizontal rotation motor (207) is installed on the conveying support (208), the walking gear (206) is sleeved on an output shaft of the horizontal rotation motor (207), and the walking gear (206) is in rolling engagement with an outer tooth edge of the gear ring (205).

7. The intelligent cold-stretching uniform film covering packaging machine as claimed in claim 1, wherein: the device is characterized in that the forward moving movable seat (202) is horizontally and slidably arranged on the forward moving guide rail seat (201), the sliding direction is consistent with the conveying direction, a forward pushing cylinder (203) is arranged on the forward moving guide rail seat (201), a cylinder barrel of the forward pushing cylinder (203) is arranged on the forward moving guide rail seat (201), and a piston rod of the forward pushing cylinder (203) is connected with the forward moving movable seat (202).

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