CN111038810B - Bottle applique heating production line - Google Patents

Abstract

The invention belongs to the technical field of bottle body heating, and particularly discloses a bottle body applique heating production line which comprises a conveying unit and a heating box, wherein a channel for conveying bottle bodies is formed in the lower portion of the heating box, a cavity is formed in the heating box, the cavity is communicated with an air blower, a heating pipe is arranged in the cavity, a plurality of air outlet holes communicated with the cavity are formed in the inner side surface of the heating box, the conveying unit comprises a conveying belt, an installation block for placing the bottle bodies is arranged on the conveying belt, and a driving piece for driving the installation block to rotate is arranged in the channel of the heating box. The bottle body can be uniformly heated, the quality of the applique on the bottle body is improved, and the applique can be tightly attached to the bottle body.

Description

Bottle applique heating production line

Technical Field

The invention belongs to the technical field of bottle body heating, and particularly discloses a bottle body applique heating production line.

Background

The bottle body, like the bottle body of beverage bottle, in the handicraft process of producing the beverage bottle, need carry out the applique on the bottle body of beverage bottle usually, have the trade mark of enterprise on this kind of applique usually, or have decorative pattern etc. make the beverage bottle have unique sign, both made things convenient for the consumer to discern the commodity, also played the decorative action to the beverage bottle simultaneously.

However, before the applique is applied to the bottle, the body of the wine bottle needs to be heated to attach the applique to the bottle. At present, the heating wire for heating the bottle body has the problems of non-centralized heat and poor heating effect, so that the applique cannot be tightly attached to the bottle body, and the quality of the applique is poor.

Disclosure of Invention

The invention aims to provide a bottle body applique heating production line, which aims to uniformly heat a bottle body, improve the quality of applique on the bottle body and enable the applique to be tightly attached to the bottle body.

In order to achieve the purpose, the basic scheme of the invention is as follows:

bottle applique heating production line, including transfer unit and heating cabinet, the passageway of conveying the bottle is seted up to the heating cabinet lower part, its characterized in that, be equipped with the cavity in the heating cabinet, the cavity intercommunication has the air-blower, just be equipped with the heating pipe in the cavity, be equipped with a plurality of exhaust vents that communicate with the cavity on the heating cabinet towards the inner wall of transfer unit, transfer unit includes the conveyer belt, be equipped with the installation piece that is used for placing the bottle on the conveyer belt, be equipped with the drive in the passageway of heating cabinet installation piece pivoted driving piece.

The working principle and the beneficial effects of the basic scheme are as follows:

1) during processing among this technical scheme, the heating pipe circular telegram generates heat and promotes the temperature in the cavity, and fan work is bloied and is made the air cycle in the heating cabinet flow to the temperature in the cavity that makes the heating cabinet is even, and hot-blast via the exhaust vent blow off to the passageway of heating cabinet in and heat the bottle that passes the heating cabinet passageway, thereby improves and carries out the effect and the quality of applique to the bottle.

2) Through set up the installation piece on the conveyer belt among this technical scheme, the bottle can be loaded to the installation piece, make the bottle more stable in the data send process, still be equipped with drive installation piece pivoted driving piece among this technical scheme, so set up, when driving piece drive installation piece pivoted, the installation piece will drive the bottle and produce the rotation, thereby change the position of bottle, make the hot-air that blows off from the cavity can carry out more even heating to each surface of bottle, it is better to the heat treatment effect of bottle.

Furthermore, the inner side surface of the heating box is arched.

So set up, the medial surface of heating cabinet is the arch to the big-end-up's shape on the adaptation bottle, and then make the heat more concentrated, avoid thermal a large amount of scattering and disappearing, thermal treatment is effectual.

Further, the heating pipe is equipped with many, many the heating pipe along heating cabinet medial surface equidistance distribution.

So set up the rate of heating that can improve the intracavity of air, the wind energy that makes the air-blower blow off simultaneously can be by even heating to the heating effect of bottle is better.

Further, the cavity of heating cabinet still communicates there is the air exhauster, the air exhauster with the air-blower is located the both sides of heating cabinet respectively, the air output of air-blower is greater than the volume of induced drafting of air exhauster.

So set up, can be full of the wind that the air-blower produced in the cavity of whole heating cabinet when the air exhauster induced draft, make the hot-air circulation in the heating cabinet, mobility is better to realize that the air heat in the cavity is even, and can make the hot-blast more even quilt in the cavity blow off.

Further, a plurality of fixed blocks of fixedly connected with on the conveyer belt, it is a plurality of fixed block equidistance set up, the installation piece is equipped with a plurality ofly, a plurality of the installation piece respectively with a plurality of the fixed block rotate to be connected, the standing groove that is used for placing the bottle is all seted up on installation piece top.

So set up, the setting of fixed block can ensure that the installation piece plays spacing effect to the installation piece at the pivoted in-process, avoids the installation piece to incline to make the installation piece more stable at the pivoted in-process, avoid the bottle of placing on the installation piece the condition of inclining to appear.

Further, the driving piece includes the rack, the rack with the inside wall fixed connection of heating cabinet, the equal coaxial fixedly connected with gear in installation piece outside, the gear with the rack can intermeshing.

This technical scheme will be through at installation piece outside fixed gear, and when the installation piece got into the passageway of heating cabinet, the gear in the installation piece outside will produce the meshing with the rack, and the gear will produce the rotation this moment, and the rotation of gear will drive the installation piece and rotate to make bottle on the installation piece rotate in the continuous production of in-process through the heating cabinet, thereby make each surface of bottle can receive more even heating effect.

Further, the length of the rack is equal to the length of the heating box.

So set up, can prolong bottle pivoted time, make the bottle all can produce the rotation at the whole in-process through the heating cabinet to receive even heating effect.

Further, the driving part comprises a first driving plate and a second driving plate, the first driving plate and the second driving plate are respectively connected with two side walls of the heating box, at least two first poke rods are arranged on the first driving plate along the conveying direction of the bottle body, at least one second poke rod is arranged on the second driving plate, the outer side of the mounting block is fixedly connected with a rotating ring, the two sides of the rotating ring are respectively and fixedly connected with a first swinging rod and a second swinging rod, the first swinging rod and the second swinging rod can respectively abut against the first poke rod and the second poke rod, the upper end of the fixing block is fixedly connected with a first limiting column and a second limiting column, the first swinging rod is positioned between the first limiting column and the second limiting column, the first poke rod is vertically and slidably connected with the first driving plate, and a spring is arranged between the first poke rod and the first driving plate, the second poke rod is connected with the second drive plate in a vertical sliding mode, and a spring is arranged between the second poke rod and the second drive plate.

When the fixing block and the mounting plate rotationally connected with the fixing block are conveyed through the conveyor belt, when the first swing rod on the rotating ring abuts against the first poke rod, the first poke rod can push the first swing rod, the first limit column can limit the first swing rod, and the first swing rod can rotate the mounting block and a bottle body on the mounting block in the process of being pushed by the first poke rod;

when the second swing rod abuts against the second poke rod, the second poke rod pushes the second swing rod in the opposite direction, at the moment, the second swing rod swings to drive the mounting block and the bottle body on the mounting block to rotate in the opposite direction, the swing is stopped until the first swing rod abuts against the second limiting column, at the moment, the first swing rod and the second limiting column continuously convey forwards along with the conveying belt, the second swing rod generates extrusion force on the second limiting column through the first swing rod, the second limiting column vertically slides downwards along the second driving plate, and therefore the second swing rod smoothly passes through the first swing rod and the second swing rod, the bottle body is continuously pushed by the first poke rod, the bottle body intermittently generates forward rotation and reverse rotation, and the effect of uniformly heating the bottle body can be achieved.

Further, the second poke rod is positioned between two adjacent first poke rods.

So set up, can make the bottle produce wobbling effect in succession to the effect of even heating to the bottle has been improved.

Furthermore, one end of the heating box is an open end, and the open end of the heating box is detachably connected with a baffle cover.

So set up, can change or install the heating pipe through opening the fender lid, the setting up of fender lid makes the operation convenient more nimble.

Drawings

FIG. 1 is a perspective view of a bottle applique heating line according to a first embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view showing a heating line for applique on a bottle body according to a first embodiment of the present invention, after a fixing cover is installed at the open end of the heating box;

FIG. 4 is a perspective view of a second embodiment of the bottle applique heating line of the present invention;

FIG. 5 is a partial perspective view of a bottle body applique heating line of a third embodiment of the present invention with the heating cabinet removed;

FIG. 6 is a partial top view of a third embodiment of the bottle applique heating line of the present invention with the heating cabinet removed;

fig. 7 is a partial cross-sectional view of a third embodiment of the bottle applique heating line of the present invention, wherein a first tap lever is coupled to a first drive plate.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a workbench 1, a conveyor belt 2, a fixing block 3, an installation block 4, a placing groove 5, a gear 6, a rack 7, a bottle body 8, a supporting table 9, a heating box 10, a heating pipe 11, an air outlet 12, a heating box inner side surface 13, an air blower 14, an exhaust fan 15, a connecting pipe 16, a baffle cover 17, a rotating ring 18, a first oscillating rod 19, a first limiting column 20, a second limiting column 21, a first poking rod 22, a first driving plate 23, a second driving plate 24, a second poking rod 25, a second oscillating rod 26, a spring 27 and a groove 28.

Example one

The embodiment is basically as shown in the attached figures 1 and 2: bottle applique heating line includes conveying unit and heating cabinet 10, and conveying unit includes workstation 1 and conveyer belt 2, and conveyer belt 2 installs in workstation 1 upper end, and conveyer belt 2 in this embodiment is cyclic annular.

The heating box 10 is located above the conveyor belt 2, and the heating box 10 is fixedly connected with the workbench 1 through bolts. Heating cabinet 10 wholly is the cuboid structure, the passageway of conveying bottle 8 is seted up in heating cabinet 10 lower part, heating cabinet medial surface 13 (towards the one side of conveyer belt 2 promptly) is the arch in this embodiment, the heating cabinet medial surface forms the passageway of transmission bottle 8 promptly, be equipped with the cavity in the heating cabinet 10, the cavity intercommunication has air-blower 14, be equipped with brace table 9 in this embodiment in the outside of conveyer belt 2, brace table 9 passes through the bolt and fixes with ground, air-blower 14 passes through the bolt and installs the top at brace table 9, the intercommunication has connecting pipe 16 between air-blower 14 and the heating cabinet 10, the one end and the air-blower 14 intercommunication of connecting pipe 16, the other end of connecting pipe 16 stretches into in the cavity and communicates.

The cavity is internally provided with a plurality of heating pipes 11, the heating pipes 11 are provided with five heating pipes 11 in the embodiment, the five heating pipes 11 are equidistantly distributed along the inner side surface 13 of the heating box, the heating pipes 11 can adopt fin type electric heating pipes on the market, and the heating pipes 11 are communicated with a power supply.

A plurality of air outlet holes 12 communicated with the cavity are formed in the inner side surface 13 of the heating box, and the air outlet holes 12 are distributed at intervals along the length direction of the heating box 10 and the inner side surface 13 of the heating box.

The conveyor belt 2 is provided with an installation block 4 for placing the bottle body 8, and a driving piece for driving the installation block 4 to rotate is arranged in the channel of the heating box 10. Through a plurality of fixed blocks 3 of screw fixedly connected with in this embodiment on the conveyer belt 2, fixed block 3 is the same with the quantity of installation piece 4, and 3 equidistance intervals of fixed block are respectively on conveyer belt 2, fixed block 3 and installation piece 4 all are cylindricly in this embodiment, and installation piece 4 rotates with fixed block 3 through the bearing to be connected, and the standing groove 5 that is used for placing bottle 8 is offered on 4 tops of installation piece, and the shape of standing groove 5 should be according to concrete bottle 8's shape structural design.

The driving piece in this embodiment includes rack 7, and rack 7 and heating cabinet medial surface 13 welded fastening, and rack 7 are located the heating cabinet 10 lower part and are located conveyer belt 2 top, and the length of rack 7 equals with the length of heating cabinet 10 in this embodiment, and the equal coaxial welded fastening in installing block 4 outside has gear 6, and gear 6 and rack 7 can intermeshing.

One end of the heating box 10 is an open end, and the other end is a closed end, as shown in fig. 3, the open end of the heating box 10 is detachably connected with a blocking cover 17, in this embodiment, the heating box 10 and the blocking cover 17 are fixed by bolts and detachably connected.

When the bottle heating device is used, a worker sequentially puts the bottle bodies 8 into the placing grooves 5 of the mounting blocks 4, simultaneously the air blower 14 is started, the heating pipe 11 is powered on to heat air blown by the air blower 14, the heated air circularly flows and is blown to the surfaces of the bottle bodies 8 on the conveying belt 2, in the embodiment, when the mounting blocks 4 enter the channel of the heating box 10, namely, the mounting blocks are positioned below the inner side surface 13 of the heating box, the gear 6 on the mounting blocks 4 is meshed with the rack 7 to rotate the gear 6, the mounting blocks 4 are driven to rotate while the gear 6 rotates, so that the bottle bodies 8 on the mounting blocks 4 generate a rotating effect, the bottle bodies 8 can continuously rotate in the process of passing through the heating box 10, and all the surfaces on the bottle bodies 8 can be heated more uniformly, and because the heating box medial surface 13 is the arch in this embodiment, can make the heat that blows off from exhaust vent 12 concentrate more, effectual improvement is to the heating effect of bottle 8.

After the heated bottle 8 comes out of the heating box 10, the worker applies a decal to the bottle 8.

Example two

As shown in fig. 4, the bottle applique heating production line differs from the first embodiment in that: the cavity of the heating box 10 is further communicated with an exhaust fan 15, the exhaust fan 15 and the air blower 14 are respectively located at two sides of the heating box 10, in the embodiment, the exhaust fan 15 is located at one side opposite to the air blower 14, a support table 9 is also arranged at one side opposite to the air blower 14, and the exhaust fan 15 is fixed with the support table 9 through a bolt.

The air output of the blower 14 is greater than the air suction amount of the exhaust fan 15, that is, the flow of the blower 14 is greater than the flow of the exhaust fan 15, so that the exhaust fan 15 can slowly suck air, and the wind energy blown by the blower 14 can be uniformly heated and blown out. The air that can make 14 air-blowers produce when induced drafting is fast and even in the cavity that is full of whole heating cabinet 10, makes the hot-air circulation in the heating cabinet 10 flow to it is even to realize the air heat in the cavity, and can make hot-blast more even quilt in the cavity blow off, further improves the thermally equivalent effect of bottle 8.

EXAMPLE III

As shown in fig. 5 and 6, the bottle applique heating production line differs from the first embodiment in that: the driving piece comprises a first driving plate 23 and a second driving plate 24, the first driving plate 23 and the second driving plate 24 are arranged in parallel, the first driving plate 23 and the second driving plate 24 are located in a channel of the heating box and are respectively welded and fixed with two side walls of the heating box, and the distance between the first driving plate 23 and the second driving plate 24 is larger than the width of the fixing block 3, so that the fixing block 3 and the mounting block 4 can smoothly pass through.

At least two first poking rods 22 are arranged on the first driving plate 23 along the conveying direction of the bottle body 8, at least one second poking rod 25 is arranged on the second driving plate 24, in the embodiment, two first poking rods 22 are arranged, one second poking rod 25 is arranged, and the second poking rod 25 is positioned between the two first poking rods 22.

In this embodiment, the fixed block 3 is a rectangular plate-shaped structure, the outer sides of the mounting blocks 4 are coaxially and fixedly connected with the rotating ring 18, the two sides of the rotating ring 18 are respectively welded and fixed with the first swinging rod 19 and the second swinging rod 26, the first swinging rod 19 can abut against the first poke rod 22, and the second swinging rod 26 can abut against the second poke rod 25.

The upper end of the fixed block 3 is fixedly welded with a first limiting column 20 and a second limiting column 21, the first limiting column 20 and the second limiting column 21 are located on the same side and are both close to a first driving plate 23, and the first swing rod 19 is located between the first limiting column 20 and the second limiting column 21.

Referring to fig. 7, a groove 28 is formed in the first driving plate 23, the first moving lever 22 is located in the groove 28 and vertically and slidably engaged with an inner side wall of the groove 28, and a spring 27 is fixedly welded between a bottom end of the first moving lever 22 and a bottom of the groove 28. The second tap lever 25 is vertically and slidably engaged with the second driving plate 24, and the connection manner of the second tap lever 25 and the second driving plate 24 is the same as that of the first tap lever 22 and the first driving plate 23, which is not described herein again.

In this embodiment, the top ends of the first and second poke rods 22 and 25 may adopt a wedge structure, that is, the end portions of the first and second poke rods 22 and 25 have inclined surfaces, so that the first and second poke rods 22 and 25 are more easily slid under the action of external force.

In use, in the present technical solution, the fixed block 3 and the mounting block 4 rotatably connected to the fixed block 3 are conveyed by the conveyor belt 2, and the following description of the orientation in this embodiment is described with reference to the direction shown in fig. 5, in the conveying process, when the first swing rod 19 on the rotating ring 18 contacts and abuts against the first poking rod 22, since the mounting block 4 is rotatably connected to the fixed block 3 through the bearing, the friction force between the mounting block 4 and the fixed block 3 is small, the first poking rod 22 can easily push the first swing rod 19 leftward, so that the first swing rod 19 abuts against the first limit post 20, so that the first limit post 20 limits the first swing rod 19, and in the process that the first swing rod 19 is pushed by the first poking rod 22, the mounting block 4 and the bottle 8 on the mounting block 4 are rotated.

Because the first limit post 20 has a limiting effect on the first oscillating rod 19, and the first limit post 20 is welded and fixed with the fixed block 3, in the process of continuously conveying the conveyor belt 2 to the right, the first limit post 20 and the first oscillating rod 19 extrude the first poking rod 22, so that the first poking rod 22 slides downwards along the groove 28 of the first driving plate 23, the first poking rod 22 is accommodated in the groove 28, the blockage of the first oscillating rod 19 caused by the movement of the first oscillating rod 19 to the right is avoided, and the first oscillating rod 19 and the mounting block 4 can smoothly pass through.

In the process of continuing to convey to the right, when the second swing rod 26 abuts against the second poke rod 25, the second poke rod 25 pushes the second swing rod 26 to the opposite direction, i.e. to the left, at this time, the swing of the second swing rod 26 drives the mounting block 4 and the bottle body 8 on the mounting block 4 to rotate to the opposite direction, and the swing is stopped until the first swing rod 19 abuts against the second limit post 21. At this time, as the conveyor belt 2 continues to convey forwards, because the second limit post 21 is welded and fixed to the fixed block 3, the first swing rod 19 and the second limit post 21 enable the second swing rod 26 to generate extrusion force on the second tap rod 25, and the second tap rod 25 slides downwards along the groove 28 of the second drive plate 24, so that the second tap rod 25 is accommodated in the groove 28, and the second swing rod 26 and the mounting block 4 smoothly pass through. When the first swing lever 19 again abuts against the other first tap lever 22 of the first driving plate 23, the bottle 8 is rotated.

In the above process, the first swing rod 19 is continuously pushed by the first moving rod 22 and the second swing rod 26 is continuously pushed by the second moving rod 25, so that the bottle body 8 intermittently generates forward rotation and reverse rotation, each surface of the bottle body 8 can be uniformly heated, and the later applique effect is improved.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (6)

1. The bottle applique heating production line comprises a conveying unit and a heating box, wherein a channel for conveying bottles is formed in the lower portion of the heating box; the bottle body fixing device is characterized in that a plurality of fixing blocks are fixedly connected to the conveying belt and arranged at equal intervals, a plurality of mounting blocks are arranged and are respectively connected with the plurality of fixing blocks in a rotating mode, a placing groove used for placing a bottle body is formed in the top end of each mounting block, each driving piece comprises a first driving plate and a second driving plate, the first driving plates and the second driving plates are respectively connected with the two side walls of the heating box, at least two first poking rods are arranged on the first driving plates along the conveying direction of the bottle body, at least one second poking rod is arranged on the second driving plates, rotating rings are fixedly connected to the outer sides of the mounting blocks, a first swinging rod and a second swinging rod are respectively fixedly connected to the two sides of each rotating ring, and the first swinging rod and the second swinging rod can respectively abut against the first poking rod and the second poking rod, the fixed block upper end fixedly connected with first spacing post and the spacing post of second, first swinging arms is located between first spacing post and the spacing post of second, first poker rod with the vertical sliding connection of first drive plate, just first poker rod with be equipped with the spring between the first drive plate, the second poker rod with the vertical sliding connection of second drive plate, the second poker rod with be equipped with the spring between the second drive plate.

2. The line of claim 1, wherein the inside of the heating box is arched.

3. The bottle applique heating line of claim 2, wherein there are a plurality of said heating tubes, said plurality of heating tubes being equally spaced along the inside of the heating chamber.

4. The bottle body applique heating production line of claim 1, wherein the cavity of the heating box is further communicated with an exhaust fan, the exhaust fan and the air blower are respectively positioned at two sides of the heating box, and the air output of the air blower is greater than the air suction of the exhaust fan.

5. The line of claim 1, wherein the second tap lever is located between two adjacent first tap levers.

6. The bottle applique heating line of claim 1, wherein one end of the heating box is open-ended and the open-ended end of the heating box is removably attached to a flap.

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