CN116588444B

CN116588444B - Shaping device is scalded to six of barrel

Info

Publication number: CN116588444B
Application number: CN202310868394.1A
Authority: CN
Inventors: 吴为荣; 傅桂明; 徐晖
Original assignee: FUJIAN TOBACCO MACHINERY CO LTD
Current assignee: FUJIAN TOBACCO MACHINERY CO LTD
Priority date: 2023-07-17
Filing date: 2023-07-17
Publication date: 2023-09-22
Anticipated expiration: 2043-07-17
Also published as: CN116588444A

Abstract

The invention relates to the field of packaging equipment, in particular to a strip box six-face ironing and shaping device, which structurally comprises: the machine body is provided with a feeding part at the top, the feeding part is connected with a discharging part through a feeding sliding rail, the front end of the discharging part is provided with a controller, and the first push rod controls the second push rod to horizontally move between the feeding guide grooves; the packing box is horizontally pushed forward to the first hot pressing plate through the guide belt of the first conveying belt of the feeding part to be hot pressed up and down, the packing box is conveyed into the cavity of the third pushing plate through the first conveying belt, the second conveying belts on two sides of the third pushing plate are horizontally moved upwards to the second hot pressing plate to be hot pressed up and down, the conveying track is horizontally matched with the vertical conveying belt, the transverse length of the equipment is reduced, the whole structure is more compact, the packing box is pushed into the sliding groove of the conveying sliding rail through the third pushing plate until the third pushing plate finally, the packing box enters the hot pressing of the left and right surfaces of the third pushing plate, and the whole process is automatically operated.

Description

Shaping device is scalded to six of barrel

Technical Field

The invention belongs to the technical field of packaging equipment, and particularly relates to a strip box six-face ironing and shaping device.

Background

The packaging machine is used for packaging products, and is mainly used for sealing, sealing and packaging manufactured packaging materials, bottles or bags and the like into a product form suitable for transportation, storage and sale, and in order to protect the appearance of a paper box of the product, the outer surface of the paper box package is coated with a film, so that the paper box package is further protected against moisture and water.

The existing packaging machine needs to carry out ironing and shaping after sleeving plastic films, so that the films are shrunk, flattened and tightly attached to the packaging shell, but the whole operation is complicated because of the need of ironing and pressing by multiple surfaces in the ironing and pressing process, and the ironing efficiency is low because of manual ironing.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a strip box six-face ironing and shaping device so as to solve the problems that the existing packaging machine needs ironing and shaping after sleeving plastic films, so that the films shrink, are flatly and tightly attached to a packaging shell, multiple faces are needed to be ironing and pressing in the ironing and pressing process, the whole operation is complicated, and the ironing efficiency is low when the ironing is performed manually.

In order to achieve the above object, the present invention is realized by the following technical scheme: the utility model provides a six shaping devices that scalds of barrel which structure includes: the feeding device comprises a machine body, wherein a feeding part is arranged at the top of the machine body, the feeding part is connected with a discharging part through a feeding sliding rail, a controller is arranged at the front end of the discharging part, a second push rod of the feeding part is connected with a first push rod of a pushing part, and the first push rod controls the second push rod to horizontally move between feeding guide grooves;

the two sides of the material conveying guide groove are provided with first conveying belts which are arranged in parallel, the tops of the first conveying belts are provided with first hot pressing plates, the movement track of the first hot pressing plates is perpendicular to the plane of the material conveying guide groove, the plane of the material conveying guide groove is provided with a heating plate matched with the first hot pressing plates, the other end of the material conveying guide groove, which is opposite to the second push rod, is provided with a guide bin, the middle part of the guide bin is provided with a second hot pressing plate, the inside of the guide bin is provided with a heating plate opposite to the second hot pressing plates, the top outlet of the guide bin is provided with a third push plate, the third push plate is parallel to the second hot pressing plates at the bottom, two sides of the cavity of the guide bin are provided with second material conveying belts, the surfaces of the second material conveying belts are provided with bulges, and the discharging part is provided with a group of opposite third hot pressing parts which are positioned at the outlet of the material conveying slide rail;

the first conveyer belt includes the guiding belt, and the band pulley of guiding belt pass through both sides is installed along the outward of guide rail, and the guiding belt bottom is equipped with the protection curb plate, and the protection curb plate is installed in the both sides of guide rail, props up the lower surface of guiding belt, the delivery wheel is installed to the band pulley bottom, the last surface mounting of guide rail has the guard plate, just the guide rail supports at last surface mounting protection top shell through the auxiliary block, the non-working area of protection top shell parcel guiding belt.

Preferably, a plurality of pushing blocks are arranged in the guide belt of the first conveying belt and are installed on the surface of the belt body, the embedded bottom frame at the bottom of each pushing block moves upwards through the surface of the material conveying guide groove to push out the front plate to be pushed out, the embedded bottom frame leaves the surface of the material conveying guide groove, and the front plate to be pushed out is reset through a reset spring installed on the surface of the sliding rod.

Preferably, the third ironing part comprises a third push rod and a third ironing plate, and the third ironing plate is driven to move relatively by the third push rod.

Preferably, the conveying wheels inside the second conveying belt and the first conveying belt are respectively linked through a driving belt.

Preferably, the pushing block is arranged on the surface of the belt body in a locking and clamping manner through the positioning screw rod and the clamping block.

Preferably, the clamping block is in an isosceles trapezoid shape and is matched with the groove of the belt wheel.

Preferably, the bottom of the embedded bottom frame is provided with rollers, two side sliding plates of the embedded bottom frame are embedded at two sides of the bottom block and are in sliding connection along the groove body, the protrusions at two sides of the sliding plates eject the top plates at two sides of the expanding front plate, and the rollers are in rolling connection with the surfaces of the material conveying guide grooves.

The invention discloses a strip box six-face ironing and shaping device, which has the following effects:

the guide belt is installed on the band pulley on guide rail both sides to install protection curb plate and last guard plate respectively in bottom and top, avoided the guide belt to produce dislocation at the in-process that removes, and fixed the protection top shell at the top through the auxiliary block, wrap up the protection to band pulley side through the protection top shell.

The packing box is horizontally pushed forward to the first hot pressing plate through the guide belt of the first conveying belt to be pressed up and down, the packing box is conveyed to the cavity of the third pushing plate through the first conveying belt, the second conveying belt on two sides of the third pushing plate is horizontally moved upwards to the second hot pressing plate to be pressed up and down, the conveying track is horizontally matched with the vertical conveying belt, the transverse length of the equipment is reduced, the whole structure is more compact, the packing box is pushed to the sliding groove of the conveying sliding rail through the third pushing plate until finally, the feeding part enters the pressing of the last left and right surfaces, the whole process is automatically operated, the plane needing pressing can be kept flush under the limit of the pushing block, and the effect is better when the pressing is performed.

And advance the piece through optimizing, cooperate through gyro wheel and defeated material guide slot surface, will stretch out the front bezel top through the gomphosis underframe when getting into defeated material guide slot surface, stretch out the holistic length of underfloor, because the underfloor length extends, make and stretch out the front bezel and can block the terminal surface of packing in a larger area, and then avoid blocking the damage that leads to the fact the packing at the both sides gap of packing at rotatory in-process.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

fig. 1 is a schematic structural view of a shaping device for hot stamping of six sides of a barrel according to the present invention.

Fig. 2 is a schematic structural view of a feeding portion according to the present invention.

Fig. 3 is a schematic view of an exploded structure of the first conveyor belt of the present invention.

Fig. 4 is a schematic structural view of the guide belt of the present invention.

Fig. 5 is a schematic cross-sectional view of a clamping block according to the present invention.

Fig. 6 is a schematic view of an exploded structure of the clamping block of the present invention.

Fig. 7 is an enlarged schematic view of the a structure of fig. 1 according to the present invention.

FIG. 8 is a schematic diagram of the structure of the clamping block of the present invention.

Fig. 9 is a schematic structural view of a second material conveying belt according to the present invention.

Fig. 10 is a schematic structural view of a third ironing part according to the present invention.

In the figure:

1. a feeding part; 2. a propulsion section; 3. a body; 4. a material conveying slide rail; 5. a discharging part; 6. a controller;

11. a first hot platen; 12. a first conveyor belt; 13. a second push rod; 14. a material conveying guide groove; 15. a second hot platen; 16. a second material conveying belt; 17. a guide bin; 18. a third push plate;

21. a first push rod;

51. a third ironing part;

511. a third push rod; 512. a third ironing plate;

111. a heating plate;

121. a conveying wheel; 122. a guide rail; 123. a protective side plate; 124. a belt wheel; 125. a guide belt, 126, upper guard plate; 127. an auxiliary block; 128. a protective top shell;

1251. a propulsion block; 1252. a belt body; 1253. a clamping block; 1254. positioning a screw;

521. pushing the front plate; 522. a jogged bottom frame; 523. a roller; 524. a slide bar; 525. a return spring; 526. a bottom block.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1 to 10, the present invention provides a technical solution of a shaping device for hot stamping of six sides of a barrel: the structure comprises: the machine body 3, the top of the machine body 3 is provided with a feeding part 1, the feeding part 1 is connected with a discharging part 5 through a feeding sliding rail 4, the front end of the discharging part 5 is provided with a controller 6, a second push rod 13 of the feeding part 1 is connected with a first push rod 21 of the pushing part 2, and the first push rod 21 controls the second push rod 13 to horizontally move between the feeding guide grooves 14;

the two sides of the material conveying guide groove 14 are provided with first conveying belts 12 which are arranged in parallel, the top of each first conveying belt 12 is provided with a first hot pressing plate 11, the movement track of each first hot pressing plate 11 is perpendicular to the plane of the material conveying guide groove 14, the plane of the material conveying guide groove 14 is provided with a heating plate 111 matched with the first hot pressing plate 11, the other end of the material conveying guide groove 14 opposite to the second push rod 13 is provided with a guide bin 17, the middle part of the guide bin 17 is provided with a second hot pressing plate 15, the inside of the guide bin 17 is provided with a heating plate 111 opposite to the second hot pressing plate 15, the top outlet of the guide bin 17 is provided with a third push plate 18, the third push plate 18 is parallel to the second hot pressing plate 15 at the bottom, two sides of the cavity of the guide bin 17 are provided with second material conveying belts 16, the surface of each second material conveying belt 16 is provided with a bulge, the discharging part 5 is provided with a group of opposite third hot pressing parts 51, and the third hot pressing parts 51 are positioned at the outlet of the material conveying slide rail 4;

the first conveyor belt 12 comprises a guide belt 125, the guide belt 125 is mounted on the outer edge of a guide rail 122 through belt pulleys 124 on two sides, a protective side plate 123 is arranged at the bottom of the guide belt 125, the protective side plate 123 is mounted on two sides of the guide rail 122, the lower surface of the guide belt 125 is supported, conveying wheels 121 are mounted on the bottom of the belt pulleys 124, an upper protection plate 126 is mounted on the upper surface of the guide rail 122, the guide rail 122 is supported on an upper surface through an auxiliary block 127 to mount a protective top shell 128, and the protective top shell 128 wraps a non-working area of the guide belt 125.

The six-sided ironing and shaping process of the invention is as follows:

the organism 3 is connected with the production line, specifically is connected with the product output line after the production line has been wrapped, the discharge gate butt joint of pay-off portion 1 and production line, advance the barrel that will drop through advancing part 2, the both sides of pay-off portion 1 are equipped with guiding belt 125, guiding belt 125 installs on band pulley 124, the conveyer wheel 121 through the bottom links with the inside motor of organism 3, in order to make the guiding belt 125 motion synchronization of both sides, conveyer wheel 121 is connected through the belt, then connect same driving motor together and carry out the transmission, the barrel that advances through second push rod 13 can be blocked by the propulsion piece 1251 on guiding belt 125 surface and then move forward.

The first stage ironing is performed when the first hot pressing plate 11 passes through, the heating plate 111 is installed on the bottom of the pressing plate of the first hot pressing plate 11 and the surface of the material conveying guide groove 14, and the upper surface and the lower surface of the strip box are flattened when the first hot pressing plate passes through.

And then proceeds until the material enters the opening at the bottom of the guide bin 17 (the arrow direction a1 in fig. 7 is the entering direction of the strip box), when the strip box enters the inner cavity of the guide bin 17, the second material conveying belts 16 are installed at two sides of the guide bin 17, the surface of each second material conveying belt 16 is provided with protrusions (refer to fig. 9), the strip box is just clamped between the protrusions, the strip box translates up and down under the action of the second material conveying belts 16, the strip box translates to the push plate position of the second hot pressing plate 15, the hot pressing of the second step is performed, the second hot pressing plate 15 is matched with the heating plate 111 inside the guide bin 17 to perform front and rear hot pressing, the strip box after the front and rear hot pressing reaches the opening at the top, the strip box after the four-face hot pressing is pushed into the groove body of the material conveying slide rail 4 under the action of the third push plate 18, the strip box slides downwards through the material conveying slide rail 4, finally enters the discharging part 5, the third hot pressing parts 51 are installed at two sides of the discharging part 5, the third push rods 511 of the third hot pressing parts 51 push the left and right sides of the third strip box, and the hot pressing plates 512 are pressed.

Since the width of the first conveyor belt 12 is consistent with the width of the barrel, when the pushing block 1251 of the guide belt 125 is pushed and clamped by the left and right surfaces of the barrel in the rotating process, the pushing block 1251 is optimized, the extensible pushing front plate 521 is arranged at the front end of the pushing block 1251, the sliding rod 524 of the pushing front plate 521 is installed in the sliding groove of the bottom block 526, the restoring spring 525 is installed for restoring the pushing front plate 521, the pushing front plate 521 is driven by the bottom embedded bottom frame 522, the roller 523 is installed at the bottom of the embedded bottom frame 522, when the belt 1252 rotates to pass through the surface of the material conveying guide groove 14, the roller 523 is pushed up by the surface of the material conveying guide groove 14, the pushing front plate 521 is pushed out in the jacking process, the length of the bottom block 526 and the pushing front plate 521 is extended, the length contacted with the package is increased, the pushing block 1251 is not easy to be blocked into two sides of the package in the pushing process, the embedded bottom frame 522 falls down when leaving the surface of the material conveying guide groove 14, and the pushing front plate 521 is restored.

The optimized guiding belt 125 is installed on the belt wheels 124 on two sides of the guiding rail 122, the bottom and the top are respectively provided with the protection side plate 123 and the upper protection plate 126, dislocation of the guiding belt 125 in the moving process is avoided, and the top-most part is fixed with the protection top shell 128 through the auxiliary block 127, so that the belt wheels 124 are protected.

The packing box is horizontally pushed forward to the first hot pressing plate 11 through the guide belt 125 of the first conveying belt 12 to be pressed up and down, the packing box is conveyed into the cavity of the third pushing plate 18 through the first conveying belt 12, the second conveying belt 16 at two sides of the third pushing plate 18 is horizontally moved upwards to the second hot pressing plate 15 to be pressed up and down, the conveying tracks are horizontally matched with the vertical conveying tracks, the transverse length of the equipment is reduced, the whole structure is more compact, the packing box is finally pushed into the sliding groove of the conveying sliding rail 4 through the third pushing plate 18, the feeding part 5 enters the pressing of the last left and right surfaces, the whole process is automatically operated, the plane needing pressing can be kept level under the limit of the pushing block 1251, and the effect is better when pressing.

And advance piece 1251 is optimized, cooperates through gyro wheel 523 and defeated material guide slot 14 surface, will extend the front bezel 521 top through gomphosis underframe 522 when getting into defeated material guide slot 14 surface, and the holistic length of extension underfloor 526, because the extension of underfloor 526 length, makes the front bezel 521 of extending can block the terminal surface of packing in a larger area, and then avoids blocking the damage that leads to the fact the packing at the both sides gap of packing at rotatory in-process.

The hot plate 111 that first hot plate 11 bottom surface set up is installed respectively in the material conveying guide slot 14 surface that first hot plate 11 is relative to and install in the relative guide silo 17 cavity surface of second hot plate 15, and the hot plate 111 passes through controller 6 independent control temperature, can be according to the area of scalding of difference and then select the temperature when scalding the pressure plastic, guarantees the effect of scalding the pressure.

In order to ensure that the two conveying wheels 121 in the second conveying belt 16 and the first conveying belt 12 can be flush when the strip boxes are moved, the conveying wheels are respectively linked through the transmission belts, the synchronization rate of the two sides is ensured, and one-side offset in the moving process is avoided.

The propulsion block 1251 is arranged on the surface of the belt body 1252 through locking and clamping of the positioning screw 1254 and the clamping block 1253, the belt body 1252 can be more easily deformed and excessively smooth in a locking mode, meanwhile, the clamping block 1253 is in an isosceles trapezoid shape and matched with a groove of the belt wheel 124, the belt body 1252 cannot be ejected out when moving through the belt wheel 124, and the belt body 1252 is kept straight to avoid vibration.

The roller 523 is installed at the bottom of the embedded bottom frame 522, the sliding plates at two sides of the embedded bottom frame 522 are embedded at two sides of the bottom block 526, the sliding plates are connected in a sliding manner along the groove bodies at two sides of the bottom block 526, when the roller 523 moves to the protrusions at two sides of the sliding plate on the surface of the material conveying guide groove 14 to push out the top plates at two sides of the front plate 521 (refer to fig. 8), the front plate 521 is automatically pushed out in a mode of matching the roller 523 with the material conveying guide groove 14, and the sliding rod 524 resets the front plate 521 by the elastic force of the reset spring 525, so that the working efficiency is improved in an automatic triggering mode, and an additional driving mechanism is not needed, so that the structure is more compact and stable.

The foregoing has described only the basic principles and preferred embodiments of the present invention, and many variations and modifications will be apparent to those skilled in the art in light of the above description, which variations and modifications are intended to be included within the scope of the present invention.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The utility model provides a six shaping devices that scalds of barrel which structure includes: organism (3), pay-off portion (1) is installed at the top of organism (3), pay-off portion (1) are connected with ejection of compact portion (5) through defeated material slide rail (4), controller (6) are installed to the front end of ejection of compact portion (5), its characterized in that:

the second push rod (13) of the feeding part (1) is connected with the first push rod (21) of the pushing part (2), and the first push rod (21) controls the second push rod (13) to horizontally move between the feeding guide grooves (14);

the two sides of the material conveying guide groove (14) are provided with first conveying belts (12) which are arranged in parallel, the top of each first conveying belt (12) is provided with a first hot pressing plate (11), the motion track of each first hot pressing plate (11) is perpendicular to the plane of the material conveying guide groove (14), the plane of the material conveying guide groove (14) is provided with a heating plate (111) matched with the first hot pressing plate (11), the other end, opposite to the second push rod (13) is arranged, of each material conveying guide groove (14) is provided with a guide bin (17), the middle part of each guide bin (17) is provided with a second hot pressing plate (15), the inside of each guide bin (17) is provided with a heating plate (111) opposite to the second hot pressing plate (15), the top outlet of each guide bin (17) is provided with a third pushing plate (18), the third pushing plate (18) is parallel to the second hot pressing plate (15) at the bottom, the two sides of the cavity of each guide bin (17) are provided with a second material conveying belt (16), the surface of each second material conveying belt (16) is provided with a bulge, the discharging part (5) is provided with a group of third hot pressing parts (51) opposite to the third hot pressing parts (51), and the third hot pressing parts (51) are located at the sliding rails;

the first conveying belt (12) comprises a guide belt (125), the guide belt (125) is arranged at the outer edge of a guide rail (122) through belt wheels (124) at two sides, a protective side plate (123) is arranged at the bottom of the guide belt (125), the protective side plate (123) is arranged at two sides of the guide rail (122), the lower surface of the guide belt (125) is supported, conveying wheels (121) are arranged at the bottom of the belt wheels (124), an upper protection plate (126) is arranged on the upper surface of the guide rail (122), the guide rail (122) is supported on the upper surface through an auxiliary block (127), and a protective top shell (128) is arranged on the upper surface of the guide rail, and wraps a non-working area of the guide belt (125);

the bottom of the embedded bottom frame (522) is provided with a roller (523), sliding plates at two sides of the embedded bottom frame (522) are embedded at two sides of the bottom block (526) and are connected in a sliding way along the groove body, the bulges at two sides of the sliding plates push out the top plates at two sides of the front expansion plate (521), and the roller (523) is connected with the surface of the material conveying guide groove (14) in a rolling way;

the guide belt (125) of the first conveying belt (12) is internally provided with a plurality of pushing blocks (1251) which are arranged on the surface of the belt body (1252), the embedded bottom frame (522) at the bottom of the pushing blocks (1251) moves upwards to push out the front pushing plate (521) through the surface of the material conveying guide groove (14), the embedded bottom frame (522) leaves the surface of the material conveying guide groove (14), and the front pushing plate (521) is reset through a reset spring (525) arranged on the surface of the sliding rod (524).

2. A cartridge six sided ironing shaper as set forth in claim 1, wherein: the third ironing part (51) comprises a third push rod (511) and a third ironing plate (512), and the third ironing plate (512) is driven to move relatively by the third push rod (511).

3. A cartridge six sided ironing shaper as set forth in claim 1, wherein: the conveying wheels (121) in the first conveying belt (12) are linked through a transmission belt.

4. A cartridge six sided ironing shaper as set forth in claim 1, wherein: the pushing block (1251) is locked and clamped with the clamping block (1253) through the positioning screw rod (1254) and is arranged on the surface of the belt body (1252).

5. The shaping device for the six-sided ironing of the strip case as set forth in claim 4, wherein: the clamping blocks (1253) are in an isosceles trapezoid shape and are matched with grooves of the belt wheels (124).