CN105643964A

CN105643964A - Continuous machining device for horizontal shallow-bottom compression molding package box

Info

Publication number: CN105643964A
Application number: CN201610058970.6A
Authority: CN
Inventors: 石现慧
Original assignee: Bengbu Zhongbang Packaging Factory
Current assignee: Tongcheng Construction Investment Development Co ltd
Priority date: 2016-01-27
Filing date: 2016-01-27
Publication date: 2016-06-08
Anticipated expiration: 2036-01-27
Also published as: CN105643964B

Abstract

The invention discloses a continuous machining device for a horizontal shallow-bottom compression molding package box. The continuous machining device comprises a feeding device, a heating box, a first profiling wheel, a second profiling wheel, a pressing roller, a conveying device, a shearing device, a first drive device, a second drive device, a third drive device and an ejection device. The feeding device is used for conveying strip-shaped plastic materials. The heating box is used for heating the strip-shaped plastic materials. The first profiling wheel is provided with a profiling cavity. The second profiling wheel is provided with a profiling head. The pressing roller is located below the second profiling wheel. The first drive device is in transmission connection with the first profiling wheel, the second profiling wheel and the pressing roller. The conveying device is located below the pressing roller. The shearing device is arranged on the side, far away from the first profiling wheel, of the pressing roller and comprises a cutter head and a material supporting table. The second drive device is connected with the cutter head. The third drive device is connected with the material supporting table. The ejection device is arranged between a first conveying wheel and a second conveying wheel. The continuous machining device is good in production continuity and high in production efficiency.

Description

A kind of horizontal shallow end compression moulding packing box continuity processing units

Technical field

The present invention relates to packing technique field, particularly relate to a kind of horizontal shallow end compression moulding packing box continuity processing units.

Background technology

Packing box is just used to the box of wrapped product as its name suggests, along with socioeconomic development, the kind of packing box is also varied, compression moulding packing box is one wherein, this packaging and employing plastic material compressed moulding, and this packing box cavity volume cross-sectional shape that is more shallow and cavity volume is trapezoidal, it is easy to shaping. But existing compression moulding packing box is all adopt mould compression molding, cannot carry out consecutive production, and production efficiency is low, urgently improves.

Summary of the invention

Based on the technical problem that above-mentioned background technology exists, the present invention proposes a kind of horizontal shallow end compression moulding packing box continuity processing units.

The present invention proposes a kind of horizontal shallow end compression moulding packing box continuity processing units, comprise: feeding device, heating container, the first die mould wheel, the 2nd die mould wheel, material pressing drum, transport unit, shear, the first drive unit, the 2nd drive unit, the 3rd drive unit and liftout attachment, wherein:

Feeding device is used for conveying band and moulds material;

The output terminal that heating container is positioned at feeding device is moulded material for the band shape exported by feeding device and is heated, and heating container has opening for feed and discharge port;

First die mould wheel and the 2nd die mould wheel are parallel to each other layouts, and the first die mould wheel and the 2nd die mould wheel in same level, the anchor ring upper annular that the first die mould is taken turns is evenly equipped with multiple die mould chamber; The anchor ring upper annular of the 2nd die mould wheel is evenly equipped with die mould head that is multiple and die mould chamber adaptation, and the quantity of die mould head is consistent with the quantity in die mould chamber, and any one die mould head coordinates formation die cavity with any one die mould chamber;

Material pressing drum is positioned at the lower section of the 2nd die mould wheel and is parallel to the 2nd die mould wheel;

First drive unit is in transmission connection for driving it to carry out synchronous axial system with the first die mould wheel, the 2nd die mould wheel and material pressing drum respectively, and first the turning direction of die mould wheel and the 2nd die mould wheel contrary, the turning direction that the turning direction of material pressing drum is taken turns with the 2nd die mould is identical;

Transport unit is positioned at the lower section of material pressing drum, and the delivery direction of transport unit is perpendicular to the bearing of trend of material pressing drum; Transport unit comprises travelling belt, the first transmission wheel, the 2nd transmits and takes turns and power mechanism, and travelling belt is set in the first transmission wheel and transmits on wheel with the 2nd, and travelling belt is provided with multiple locating slot run through along its bearing of trend interval layout and two ends; On travelling belt and the periphery being positioned at any one locating slot is equipped with and allows cutter groove around what this locating slot was circular layout; Power mechanism rotates with the 2nd transmission wheel for driving the first transmission to take turns, and the turning direction that the first transmission wheel is taken turns with the 2nd transmission is identical with the turning direction that the first die mould is taken turns;

Shear is positioned at the side that material pressing drum is taken turns away from the first die mould, and shear comprises cutting knife head and retainer platform, and cutting knife head is positioned at the top of travelling belt, cutting knife head comprise tool rest and be arranged on tool rest and with allow the annular cutting knife of cutter groove adaptation; Retainer platform is arranged between the first transmission wheel and the 2nd transmission wheel and is positioned at the lower section of cutting knife head, and retainer platform is provided with slot to make way;

2nd drive unit is connected for driving cutting knife head to move up and down with cutting knife head;

3rd drive unit is connected for driving retainer platform to move up and down with retainer platform;

Liftout attachment is arranged on the first transmission wheel and the 2nd and transmits between wheel and be positioned at the side of retainer platform away from material pressing drum, liftout attachment comprises Ejector plate, Ejector plate is in tilted layout along the delivery direction of travelling belt, and Ejector plate is provided with spacing a near one end of retainer platform and travelling belt between the side of material pressing drum, Ejector plate is provided with spacing b away from one end and the travelling belt of retainer platform between the side of material pressing drum, and b < a.

Preferably, also comprising take-off equipment, what take-off equipment was positioned at transport unit spreads out of end, and the delivery direction of take-off equipment is perpendicular to the delivery direction of transport unit; Transport unit comprises conveying belt and for driving conveying belt to carry out the power mechanism of cycle rotation.

Preferably, travelling belt is connected in sequence by polylith tinsel splicing head and the tail.

Preferably, in each tinsel, any one piece of tinsel is equipped with locating slot, any one piece of tinsel is equipped with and allows cutter groove around what the locating slot being located thereon was circular layout.

Preferably, the first transmission wheel transmits with the 2nd and is provided with bracing frame between wheel, and the 3rd drive unit and liftout attachment are installed on bracing frame.

Preferably, being provided with the 3rd guide roller group between feeding device and heating container, the 3rd guide roller group comprises at least one the 3rd guide roller.

Preferably, the periphery of the 3rd guide roller is coated with rubber layer.

Preferably, heating container is provided with the 4th guide roller group away from the side of feeding device, and the 4th guide roller group comprises at least one the 4th guide roller.

Preferably, the periphery of the 4th guide roller is coated with thermofin.

Preferably, heating container comprises preheating chamber, heating chamber and moist closet, and preheating chamber, heating chamber and moist closet are arranged to the side away from feeding device successively by the side near feeding device.

In the present invention, feeding device is used for conveying band and moulds material; The band shape that heating container is used for being exported by feeding device is moulded material and is heated; For driving, the first die mould wheel, the 2nd die mould wheel and material pressing drum carry out synchronous axial system to first drive unit, wherein, first die mould wheel, the 2nd die mould are taken turns in rotation process, first die mould wheel and the 2nd die mould wheel under cooperatively interact the band shape after heating is moulded material carried out die mould, band shape is moulded material is formed continuous print die mould part; Die mould part is pressed into successively in the locating slot on travelling belt by material pressing drum in rotation process; Die mould part is transmitted by travelling belt to shear direction, when die mould part is sent to shear, cutting knife head and retainer platform are close to each other under the driving of the 2nd drive unit and the 3rd drive unit, utilize the support of retainer platform, and die mould part is blocked material by the cutting knife in cutting knife head and the cutter slot fit that allows on travelling belt from moulding with band shape; Die mould part after blocking in the transport process of travelling belt by liftout attachment in Ejector plate eject and mould material with band shape and be separated.

In sum, the continuity that horizontal shallow end compression moulding packing box continuity processing units proposed by the invention is produced is good, production efficiency height; Adapt to enterprise scale Production requirement.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of horizontal shallow end compression moulding packing box continuity processing units that the present invention proposes;

Fig. 2 is the enlarged view of A in Fig. 1;

Fig. 3 is the enlarged view of B in Fig. 1;

Fig. 4 is the enlarged view of C in Fig. 1.

Embodiment

Below, by specific embodiment, the technical scheme of the present invention is described in detail.

As Figure 1-4, Fig. 1 is the structural representation of a kind of horizontal shallow end compression moulding packing box continuity processing units that the present invention proposes; Fig. 2 is the enlarged view of A in Fig. 1; Fig. 3 is the enlarged view of B in Fig. 1; Fig. 4 is the enlarged view of C in Fig. 1.

With reference to Fig. 1-4, a kind of horizontal shallow end compression moulding packing box continuity processing units that the embodiment of the present invention proposes, comprise: feeding device 1, heating container 2, first die mould wheel the 3, the 2nd die mould wheel 4, material pressing drum 5, transport unit 6, shear, the first drive unit, the 2nd drive unit, the 3rd drive unit, liftout attachment 7 and take-off equipment 12, wherein:

Feeding device 1 moulds material for conveying band.

The output terminal that heating container 2 is positioned at feeding device 1 is moulded material for the band shape exported by feeding device 1 and is heated, and heating container 2 has opening for feed and discharge port; Heating container 2 comprises preheating chamber, heating chamber and moist closet, and preheating chamber, heating chamber and moist closet are arranged to the side away from feeding device 1 successively by the side near feeding device 1; Heating container 2 is provided with the 3rd guide roller group near the side of feeding device 1, and the 3rd guide roller group comprises at least one the 3rd guide roller 14; The periphery of the 3rd guide roller 14 is coated with rubber layer; Heating container 2 is provided with the 4th guide roller group away from the side of feeding device 1, and the 4th guide roller group comprises at least one the 4th guide roller 15; The periphery of the 4th guide roller 15 is coated with thermofin.

First die mould wheel 3 and the 2nd die mould wheel 4 are parallel to each other layouts, and the first die mould wheel 3 and the 2nd die mould wheel 4 in same level, the anchor ring upper annular that the first die mould takes turns 3 is evenly equipped with multiple die mould chamber 301; The anchor ring upper annular of the 2nd die mould wheel 4 is evenly equipped with die mould head 401 that is multiple and die mould chamber 301 adaptation, and the quantity of die mould head 401 is consistent with the quantity in die mould chamber 301, and any one die mould head 401 coordinates formation die cavity with any one die mould chamber 301; Material pressing drum 5 is positioned at the lower section of the 2nd die mould wheel 4 and is parallel to the 2nd die mould wheel 4; First drive unit is in transmission connection for driving it to carry out synchronous axial system with the first die mould wheel the 3, the 2nd die mould wheel 4 and material pressing drum 5 respectively, and first the turning direction of die mould wheel 3 and the 2nd die mould wheel 4 contrary, the turning direction that the turning direction of material pressing drum 5 takes turns 4 with the 2nd die mould is identical.

Transport unit 6 is positioned at the lower section of material pressing drum 5, and the delivery direction of transport unit 6 is perpendicular to the bearing of trend of material pressing drum 5; Transport unit 6 comprises travelling belt, the first transmission wheel, the 2nd transmits wheel and power mechanism, and travelling belt is set in the first transmission wheel and transmits on wheel with the 2nd, and travelling belt is connected in sequence by polylith tinsel splicing head and the tail; In each tinsel, any one piece of tinsel is equipped with locating slot 8, any one piece of tinsel is equipped with and allows cutter groove 9 around what the locating slot 8 being located thereon was circular layout; First transmission wheel transmits with the 2nd and is provided with bracing frame between wheel; Power mechanism rotates with the 2nd transmission wheel for driving the first transmission to take turns, and the first transmission wheel is identical with the turning direction of the first die mould wheel 3 with the turning direction that the 2nd transmission is taken turns. Shear is positioned at the side of material pressing drum 5 away from the first die mould wheel 3, and shear comprises cutting knife head 10 and retainer platform 11, and cutting knife head 10 is positioned at the top of travelling belt, cutting knife head 10 comprise tool rest and be arranged on tool rest and with allow the annular cutting knife of cutter groove 9 adaptation; Retainer platform 11 is arranged between the first transmission wheel and the 2nd transmission wheel and is positioned at the lower section of cutting knife head 10, and retainer platform 11 is provided with slot to make way; 2nd drive unit is connected for driving cutting knife head 10 to move up and down with cutting knife head 10; 3rd drive unit is arranged on bracing frame, and the 3rd drive unit is connected for driving retainer platform 11 to move up and down with retainer platform 11; Liftout attachment 7 is installed on bracing frame, liftout attachment 7 is arranged on the first transmission wheel and the 2nd and transmits between wheel and be positioned at the side of retainer platform 11 away from material pressing drum 5, liftout attachment 7 comprises Ejector plate, Ejector plate is in tilted layout along the delivery direction of travelling belt, and Ejector plate is provided with spacing a near one end of retainer platform 11 and travelling belt between the side of material pressing drum 5, Ejector plate is provided with spacing b away from one end and the travelling belt of retainer platform 11 between the side of material pressing drum 5, and b < a.

What take-off equipment 12 was positioned at transport unit 6 spreads out of end, and the delivery direction of take-off equipment 12 is perpendicular to the delivery direction of transport unit 6; Transport unit 6 comprises conveying belt and for driving conveying belt to carry out the power mechanism of cycle rotation.

In the present invention, feeding device 1 moulds material for conveying band; Heating container 2 is moulded material for the band shape exported by feeding device 1 and is heated; For driving, the first die mould wheel the 3, the 2nd die mould wheel 4 and material pressing drum 5 carry out synchronous axial system to first drive unit, wherein, first die mould wheel the 3, the 2nd die mould wheel 4 is in rotation process, first die mould wheel 3 and the 2nd die mould wheel 4 under cooperatively interact the band shape after heating is moulded material carried out die mould, band shape is moulded material is formed continuous print die mould part; Die mould part is pressed into successively in the locating slot 8 on travelling belt by material pressing drum 5 in rotation process; Die mould part is transmitted by travelling belt to shear direction, when die mould part is sent to shear, cutting knife head 10 and retainer platform 11 are close to each other under the driving of the 2nd drive unit and the 3rd drive unit, utilize the support of retainer platform 11, and cutting knife in cutting knife head 10 with travelling belt allows cutter groove 9 coordinate to be blocked material from moulding with band shape by die mould part; Die mould part after blocking is ejected by Ejector plate in liftout attachment 7 in the transport process of travelling belt and moulds material with band shape and be separated.

As from the foregoing, the continuity that horizontal shallow end compression moulding packing box continuity processing units proposed by the invention is produced is good, production efficiency height; Adapt to enterprise scale Production requirement.

Above; it is only the present invention's preferably embodiment; but protection scope of the present invention is not limited thereto; any it is familiar with those skilled in the art in the technical scope that the present invention discloses; technical scheme and invention design thereof according to the present invention are equal to replacement or are changed, and all should be encompassed within protection scope of the present invention.

Claims

1. a horizontal shallow end compression moulding packing box continuity processing units, it is characterized in that, comprise: feeding device (1), heating container (2), the first die mould wheel (3), the 2nd die mould wheel (4), material pressing drum (5), transport unit (6), shear, the first drive unit, the 2nd drive unit, the 3rd drive unit and liftout attachment (7), wherein:

Feeding device (1) moulds material for conveying band;

The output terminal that heating container (2) is positioned at feeding device (1) is moulded material for the band shape exported by feeding device (1) and is heated, and heating container (2) has opening for feed and discharge port;

First die mould wheel (3) and the 2nd die mould are taken turns (4) and are parallel to each other layout, and first die mould wheel (3) and the 2nd die mould wheel (4) in same level, first die mould take turns (3) anchor ring upper annular be evenly equipped with multiple die mould chamber (301); The anchor ring upper annular of the 2nd die mould wheel (4) is evenly equipped with multiple die mould head (401) adaptive with die mould chamber (301), the quantity of die mould head (401) is consistent with the quantity of die mould chamber (301), and any one die mould head (401) coordinates formation die cavity with any one die mould chamber (301);

Material pressing drum (5) is positioned at the lower section of the 2nd die mould wheel (4) and is parallel to the 2nd die mould wheel (4);

First drive unit is in transmission connection for driving it to carry out synchronous axial system with the first die mould wheel (3), the 2nd die mould wheel (4) and material pressing drum (5) respectively, and first die mould wheel (3) and the 2nd die mould wheel (4) turning direction on the contrary, the turning direction that the turning direction of material pressing drum (5) takes turns (4) with the 2nd die mould is identical;

Transport unit (6) is positioned at the lower section of material pressing drum (5), and the delivery direction of transport unit (6) is perpendicular to the bearing of trend of material pressing drum (5); Transport unit (6) comprises travelling belt, first and transmits wheel, the 2nd transmission wheel and power mechanism, travelling belt is set in the first transmission wheel and the 2nd and transmits on wheel, and travelling belt is provided with multiple locating slot (8) run through along its bearing of trend interval layout and two ends; On travelling belt and the periphery being positioned at any one locating slot (8) is equipped with and allows cutter groove (9) around what this locating slot (8) was circular layout; For driving, the first transmission wheel and the 2nd transmission wheel rotate in power mechanism, and first transmits wheel and the 2nd and transmit the turning direction taken turns take turns the turning direction of (3) with the first die mould identical;

Shear is positioned at the side that material pressing drum (5) takes turns (3) away from the first die mould, shear comprises cutting knife head (10) and retainer platform (11), cutting knife head (10) is positioned at the top of travelling belt, cutting knife head (10) comprise tool rest and be arranged on tool rest and with the annular cutting knife making cutter groove (9) adaptive; Retainer platform (11) is arranged between the first transmission wheel and the 2nd transmission wheel and is positioned at the lower section of cutting knife head (10), and retainer platform (11) is provided with slot to make way;

2nd drive unit is connected for driving cutting knife head (10) to move up and down with cutting knife head (10);

3rd drive unit is connected for driving retainer platform (11) to move up and down with retainer platform (11);

Liftout attachment (7) is arranged on the first transmission wheel and the 2nd and transmits between wheel and be positioned at the side of retainer platform (11) away from material pressing drum (5), liftout attachment (7) comprises Ejector plate, Ejector plate is in tilted layout along the delivery direction of travelling belt, and Ejector plate is provided with spacing a near one end of retainer platform (11) and travelling belt between the side of material pressing drum (5), Ejector plate is provided with spacing b away from one end and the travelling belt of retainer platform (11) between the side of material pressing drum (5), and b < a.

2. horizontal shallow end compression moulding packing box continuity processing units according to claim 1, it is characterized in that, also comprise take-off equipment (12), what take-off equipment (12) was positioned at transport unit (6) spreads out of end, and the delivery direction of take-off equipment (12) is perpendicular to the delivery direction of transport unit (6); Transport unit (6) comprises conveying belt and for driving conveying belt to carry out the power mechanism of cycle rotation.

3. horizontal shallow end compression moulding packing box continuity processing units according to claim 1, it is characterised in that, travelling belt is connected in sequence by polylith tinsel splicing head and the tail.

4. horizontal shallow end compression moulding packing box continuity processing units according to claim 3, it is characterized in that, in each tinsel, any one piece of tinsel is equipped with locating slot (8), any one piece of tinsel is equipped with and allows cutter groove (9) around what the locating slot (8) being located thereon was circular layout.

5. horizontal shallow end compression moulding packing box continuity processing units according to claim 1, it is characterised in that, the first transmission wheel transmits with the 2nd and is provided with bracing frame between wheel, and the 3rd drive unit and liftout attachment (7) are installed on bracing frame.

6. horizontal shallow end compression moulding packing box continuity processing units according to claim 1, it is characterized in that, being provided with the 3rd guide roller group between feeding device (1) and heating container (2), the 3rd guide roller group comprises at least one the 3rd guide roller (14).

7. horizontal shallow end compression moulding packing box continuity processing units according to claim 6, it is characterised in that, the periphery of the 3rd guide roller (14) is coated with rubber layer.

8. horizontal shallow end compression moulding packing box continuity processing units according to claim 1, it is characterized in that, heating container (2) is provided with the 4th guide roller group away from the side of feeding device (1), and the 4th guide roller group comprises at least one the 4th guide roller (15).

9. horizontal shallow end compression moulding packing box continuity processing units according to claim 8, it is characterised in that, the periphery of the 4th guide roller (15) is coated with thermofin.

10. horizontal shallow end compression moulding packing box continuity processing units according to any one of claim 1-9, it is characterized in that, heating container (2) comprises preheating chamber, heating chamber and moist closet, and preheating chamber, heating chamber and moist closet are arranged to the side away from feeding device (1) successively by the side near feeding device (1).