Vertical device for packaging strip bags

文档序号:162034 发布日期:2021-10-29 浏览:20次 中文

阅读说明:本技术 一种条包包装竖立式装置 (Vertical device for packaging strip bags ) 是由 姜德伟 黎业演 钟海辉 刘桂安 杨凯峰 于 2021-07-22 设计创作,主要内容包括:本发明公开了一种条包包装竖立式装置,包括按生产顺序依次设置的条包称重机构、过渡整列机构、水平输送机构、整列出料机构、叠层机构,所述条包称重机构、过渡整列机构和整列出料机构分别设置在不同的楼层,所述条包称重机构和过渡整列机构之间通过第一竖向输送机构衔接,所述过渡整列机构和所述水平输送机构之间通过第二竖向输送机构衔接,所述水平输送机构与所述整列出料机构连接,所述整列出料机构与所述叠层机构连接。本发明可减少水平占地面积。(The invention discloses a strip pack packaging vertical device which comprises a strip pack weighing mechanism, a transition arraying mechanism, a horizontal conveying mechanism, an arraying and discharging mechanism and a laminating mechanism which are sequentially arranged according to a production sequence, wherein the strip pack weighing mechanism, the transition arraying mechanism and the arraying and discharging mechanism are respectively arranged on different floors, the strip pack weighing mechanism is connected with the transition arraying mechanism through a first vertical conveying mechanism, the transition arraying mechanism is connected with the horizontal conveying mechanism through a second vertical conveying mechanism, the horizontal conveying mechanism is connected with the arraying and discharging mechanism, and the arraying and discharging mechanism is connected with the laminating mechanism. The invention can reduce the horizontal floor area.)

1. The utility model provides a vertical device of strip package packing which characterized in that: include strip package weighing mechanism, transition permutation mechanism, horizontal conveyor, permutation discharge mechanism, the stromatolite mechanism that sets gradually according to production order, strip package weighing mechanism, transition permutation mechanism and permutation discharge mechanism set up the floor in the difference respectively, link up through first vertical conveyor between strip package weighing mechanism and the transition permutation mechanism, transition permutation mechanism with link up through the vertical conveyor of second between the horizontal conveyor, horizontal conveyor with permutation discharge mechanism connects, permutation discharge mechanism with stromatolite mechanism connects.

2. The vertical device for packaging strip bags according to claim 1, wherein: the first vertical conveying mechanism and the second vertical conveying mechanism are identical in structure and respectively comprise a support, a servo motor, a synchronous belt assembly, a strip-pack conveying trough assembly and two guide plates, the servo motor is arranged on the support, the two guide plates are symmetrically arranged, the synchronous belt assembly is arranged between the two guide plates and is connected with the servo motor, and the synchronous belt assembly is provided with a plurality of strip-pack conveying trough assemblies which are distributed at intervals.

3. The vertical device for packaging strip bags according to claim 2, wherein: hold-in range subassembly includes driving shaft, driven shaft, drive belt, the driving shaft sets up two between the deflector lower extreme, just the both ends of driving shaft are respectively with two the deflector rotates to be connected, two the upper end of deflector is connected with straining device, the driven shaft activity sets up straining device is last, the drive belt suit is in on driving shaft and the driven shaft, it is a plurality of strip package conveyer trough subassembly equidistance interval sets up on the drive belt.

4. The vertical device for packaging strip bags according to claim 3, wherein: two guide rails are respectively arranged on two sides of the inner wall of each guide plate, and supporting seats are respectively arranged on the outer walls of the two guide plates.

5. The vertical device for packaging strip bags according to claim 3, wherein: straining device includes the tensioning piece that two symmetries set up, the driven shaft sets up two between the tensioning piece, just the both ends of driven shaft respectively with two the tensioning piece rotates and is connected, the tensioning piece through adjusting the pole with the upper end of deflector is connected.

6. The vertical packaging bar and bag device as claimed in claim 4, wherein: the strip pack conveying groove assembly comprises a connecting piece and a conveying plate, the conveying plate is connected with the conveying belt through the connecting piece, a plurality of strip pack through grooves are formed in the conveying plate, cam bearings are arranged at two ends of the connecting piece respectively, and the cam bearings are installed on the guide rail.

7. The vertical packaging bar and bag device as claimed in claim 4, wherein: the supporting seat comprises a fixing piece, a bottom plate, a supporting piece and supporting legs, wherein the supporting piece is in a right-angled triangle shape, the fixing piece is arranged on the outer wall of the guide plate, one side of the bottom plate is connected with the fixing piece, two right-angled sides of the supporting piece are respectively connected with the fixing piece and the bottom plate, and the supporting legs are arranged on the bottom surface of the bottom plate.

8. The vertical packaging bar and bag device as claimed in claim 5, wherein: the connecting piece is rectangular frame-shaped, an inner frame strip of the connecting piece is connected with the transmission belt through screws, an outer frame strip of the connecting piece is connected with the conveying plate, two ends of the outer frame strip of the connecting piece extend leftwards and rightwards respectively, and frame strips at two ends of the connecting piece are connected with the cam bearing through mounting blocks respectively.

9. The vertical stick pack device as claimed in claim 8, wherein: and a strip and bag weighing electric appliance cabinet is arranged on the strip and bag weighing mechanism.

10. The vertical stick pack device according to any one of claims 1 to 9, wherein: the horizontal conveying mechanism comprises a first horizontal conveying mechanism and a second horizontal conveying mechanism, a strip pack conveying follow-up channel merging mechanism is arranged between the first horizontal conveying mechanism and the second horizontal conveying mechanism, the first horizontal conveying mechanism is connected with the second vertical conveying mechanism, and the second horizontal conveying mechanism is connected with the arraying and discharging mechanism.

Technical Field

The invention relates to the technical field of packaging equipment, in particular to a vertical device for strip-shaped package packaging.

Background

In order to facilitate weighing, transportation, storage and sale, a series of packaging operations are required to be carried out on products, in the production process, all devices for realizing the series of packaging operations are required to be connected together to form a long complete packaging system, a complete packaging system is arranged in a factory building on the same floor, a larger factory building is required to be built to accommodate the complete packaging system, and the horizontal occupied area of the factory building is large.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a vertical device for packaging strip packets, which can reduce the horizontal floor area.

The invention is realized by the following technical scheme: the utility model provides a vertical device is packed to strip package, includes strip package weighing mechanism, transition permutation mechanism, horizontal transport mechanism, permutation discharge mechanism, the stromatolite mechanism that sets gradually according to production order, strip package weighing mechanism, transition permutation mechanism and permutation discharge mechanism set up the floor in the difference respectively, link up through first vertical transport mechanism between strip package weighing mechanism and the transition permutation mechanism, the permutation mechanism of transition with link up through the vertical transport mechanism of second between the horizontal transport mechanism, horizontal transport mechanism with permutation discharge mechanism connects, permutation discharge mechanism with stromatolite mechanism connects.

Further: the first vertical conveying mechanism and the second vertical conveying mechanism are identical in structure and respectively comprise a support, a servo motor, a synchronous belt assembly, a strip-pack conveying trough assembly and two guide plates, the servo motor is arranged on the support, the two guide plates are symmetrically arranged, the synchronous belt assembly is arranged between the two guide plates and is connected with the servo motor, and the synchronous belt assembly is provided with a plurality of strip-pack conveying trough assemblies which are distributed at intervals.

Further: hold-in range subassembly includes driving shaft, driven shaft, drive belt, the driving shaft sets up two between the deflector lower extreme, just the both ends of driving shaft are respectively with two the deflector rotates to be connected, two the upper end of deflector is connected with straining device, the driven shaft activity sets up straining device is last, the drive belt suit is in on driving shaft and the driven shaft, it is a plurality of strip package conveyer trough subassembly equidistance interval sets up on the drive belt.

Further: two guide rails are respectively arranged on two sides of the inner wall of each guide plate, and supporting seats are respectively arranged on the outer walls of the two guide plates.

Further: straining device includes the tensioning piece that two symmetries set up, the driven shaft sets up two between the tensioning piece, just the both ends of driven shaft respectively with two the tensioning piece rotates and is connected, the tensioning piece through adjusting the pole with the upper end of deflector is connected.

Further: the strip pack conveying groove assembly comprises a connecting piece and a conveying plate, the conveying plate is connected with the conveying belt through the connecting piece, a plurality of strip pack through grooves are formed in the conveying plate, cam bearings are arranged at two ends of the connecting piece respectively, and the cam bearings are installed on the guide rail.

Further: the supporting seat comprises a fixing piece, a bottom plate, a supporting piece and supporting legs, wherein the supporting piece is in a right-angled triangle shape, the fixing piece is arranged on the outer wall of the guide plate, one side of the bottom plate is connected with the fixing piece, two right-angled sides of the supporting piece are respectively connected with the fixing piece and the bottom plate, and the supporting legs are arranged on the bottom surface of the bottom plate.

Further: the connecting piece is rectangular frame-shaped, an inner frame strip of the connecting piece is connected with the transmission belt through screws, an outer frame strip of the connecting piece is connected with the conveying plate, two ends of the outer frame strip of the connecting piece extend leftwards and rightwards respectively, and frame strips at two ends of the connecting piece are connected with the cam bearing through mounting blocks respectively.

Further: and a strip and bag weighing electric appliance cabinet is arranged on the strip and bag weighing mechanism.

Further: the horizontal conveying mechanism comprises a first horizontal conveying mechanism and a second horizontal conveying mechanism, a strip pack conveying follow-up channel merging mechanism is arranged between the first horizontal conveying mechanism and the second horizontal conveying mechanism, the first horizontal conveying mechanism is connected with the second vertical conveying mechanism, and the second horizontal conveying mechanism is connected with the arraying and discharging mechanism.

The invention has the advantages of

Compared with the prior art, through with strip package weighing mechanism, transition permutation mechanism and permutation discharge mechanism set up respectively in the floor of difference, link up through first vertical conveying mechanism between strip package weighing mechanism and the transition permutation mechanism, link up through second vertical conveying mechanism between transition permutation mechanism and the horizontal conveying mechanism, horizontal conveying mechanism and stromatolite mechanism are located same floor with permutation discharge mechanism, horizontal conveying mechanism is connected with permutation discharge mechanism, permutation discharge mechanism is connected with stromatolite mechanism, the realization will set up strip package weighing mechanism on different floors, transition permutation mechanism, link up between permutation discharge mechanism, reduce horizontal area, guarantee the continuity of production.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a top view of the present invention;

fig. 4 and 5 are schematic structural views of the first vertical conveying mechanism;

FIG. 6 is an enlarged view of FIG. 4A;

fig. 7 is an enlarged view of fig. 5B.

Description of reference numerals: 1-bale weighing mechanism, 11-bale weighing electrical cabinet, 2-transitional alignment mechanism, 3-horizontal conveying mechanism, 31-first horizontal conveying mechanism, 32-second horizontal conveying mechanism, 4-alignment discharging mechanism, 5-laminating mechanism, 6-first vertical conveying mechanism, 61-support, 62-servo motor, 63-guide plate, 631-guide rail, 64-driving shaft, 65-driven shaft, 66-transmission belt, 67-connecting piece, 68-conveying plate, 681-bale through groove, 69-cam bearing, 691-mounting block, 7-second vertical conveying mechanism, 71-floor, 8-tensioning mechanism, 81-supporting seat, 9-supporting seat, 91-fixing piece, 92-bottom plate, 93-supporting piece, 94-supporting foot and 10-bag conveying follow-up track merging mechanism.

Detailed Description

Fig. 1-7 are schematic structural diagrams of an embodiment of a vertical strip-pack packaging device provided by the invention, which include a strip-pack weighing mechanism 1, a transitional arraying mechanism 2, a horizontal conveying mechanism 3, an arraying discharging mechanism 4 and a laminating mechanism 5, which are sequentially arranged according to a production sequence, wherein a strip-pack weighing electrical cabinet 11 is arranged on the strip-pack weighing mechanism 1, the transitional arraying mechanism 2 and the arraying discharging mechanism 4 are respectively arranged on different floors, the strip-pack weighing mechanism 1 and the transitional arraying mechanism 2 are connected by a first vertical conveying mechanism 6, the transitional arraying mechanism 2 and the horizontal conveying mechanism 3 are connected by a second vertical conveying mechanism 7, the horizontal conveying mechanism 3 is connected with the arraying discharging mechanism 4, and the arraying discharging mechanism 4 is connected with the laminating mechanism 5.

The strip package weighing mechanism 1 is used for carrying out strip package weight detection on line, rejecting strip packages with unqualified weight detection and sampling the strip packages, the first vertical conveying mechanism 6 is used for vertically conveying the strip packages, the strip packages of the strip package weighing mechanism 1 are conveyed to the transition arraying mechanism 2, the transition arraying mechanism 2 is used for realizing conveying connection between the first vertical conveying mechanism 6 and the second vertical conveying mechanism 7, the second vertical conveying mechanism 7 is used for conveying the strip packages of the transition arraying mechanism 2 to the horizontal conveying mechanism 3, the horizontal conveying mechanism 3 is used for realizing conveying of the strip packages in the horizontal direction, the arraying discharging mechanism 4 is used for packaging different strip package quantities, multiple rows of strip packages are conveyed forwards in an intermittent and stepping mode, and the laminating mechanism 5 is used for carrying out multilayer stacking on the strip packages.

Through with strip package weighing mechanism 1, transition permutation mechanism 2 and permutation discharge mechanism 4 set up respectively in the floor of difference, link up through first vertical conveying mechanism 6 between strip package weighing mechanism 1 and the transition permutation mechanism 2, link up through second vertical conveying mechanism 7 between transition permutation mechanism 2 and the horizontal conveying mechanism 3, horizontal conveying mechanism 3 and stromatolite mechanism 5 are located same floor with permutation discharge mechanism 4, horizontal conveying mechanism 3 is connected with permutation discharge mechanism 4, permutation discharge mechanism 4 is connected with stromatolite mechanism 5, the realization is with setting up strip package weighing mechanism 1 on different floors, transition permutation mechanism 2, link up between permutation discharge mechanism 4, reduce horizontal area, guarantee the continuity of production.

First vertical conveying mechanism 6 is the same with the vertical conveying mechanism 7 structure of second, include support 61 respectively, servo motor 62, synchronous belt assembly, strip package conveyer trough subassembly, two deflectors 63, servo motor 62 sets up on support 61, two deflectors 63 symmetry each other set up, the inner wall both sides of two deflectors 63 are provided with guide rail 631 respectively, the outer wall of two deflectors 63 is provided with supporting seat 9 respectively, synchronous belt assembly sets up between two deflectors 63, and synchronous belt assembly is connected with servo motor 62, be provided with a plurality of interval distribution's strip package conveyer trough subassembly on the synchronous belt assembly.

The synchronous belt assembly comprises a driving shaft 64, a driven shaft 65 and a transmission belt 66, wherein the driving shaft 64 is arranged between the lower ends of the two guide plates 63, the two ends of the driving shaft 64 are respectively connected with the two guide plates 63 in a rotating mode, the upper ends of the two guide plates 63 are connected with a tensioning mechanism 8, the driven shaft 65 is movably arranged on the tensioning mechanism 8, the transmission belt 66 is sleeved on the driving shaft 64 and the driven shaft 65, and the strip pack conveying trough assemblies are arranged on the transmission belt 66 at equal intervals.

The strip pack conveying groove assembly comprises a connecting piece 67 and a conveying plate 68, wherein the conveying plate 68 is connected with a driving belt 66 through the connecting piece 67, a plurality of strip pack through grooves 681 are formed in the conveying plate 68, cam bearings 69 are respectively arranged at two ends of the connecting piece 67, and the cam bearings 69 are mounted on a guide rail 631.

The connecting piece 67 is rectangular frame shape, and the inside casing strip of connecting piece 67 passes through the screw and is connected with drive belt 66, and the outside casing strip of connecting piece 67 is connected with delivery board 68, and the outside casing strip both ends of connecting piece 67 extend to left and right sides respectively, and the both ends frame strip of connecting piece 67 is connected with cam bearing 69 through installation piece 691 respectively.

When the first vertical conveying mechanism 6 and the second vertical conveying mechanism 7 convey the strip packages, the servo motor 62 drives the driving shaft 64 to rotate, the driving shaft 64 drives the transmission belt 66 and the driven shaft 65 to rotate, the transmission belt 66 drives the conveying plate 68 to move, and the strip packages are placed in the strip package through groove 681 on the conveying plate 68. By placing the strip pack in the strip pack through groove 681 on the conveying plate 68, the conveying plate 68 moves in the vertical direction along with the belt 66, so that the strip pack is conveyed to different floors, and equipment arranged on different floors is connected. During the moving process of the conveying plate 68, the cam bearing 69 moves along the guide rail 631, and the safety and the stability of the movement of the conveying plate 68 can be improved through the moving guide matching of the cam bearing 69 and the guide rail 631.

The connecting piece 67 is of a rectangular frame-shaped structure, so that the inner frame strip of the connecting piece 67 is conveniently connected with the transmission belt 66, and materials can be saved; two ends of the outer frame strip of the connecting piece 67 extend to the left and the right respectively, so that the two ends of the outer frame strip of the connecting piece 67 are respectively positioned at the outer edges of the two guide plates 63, the connecting area of the connecting piece 67 and the conveying plate 68 can be increased, and the connecting strength is improved.

The supporting seat 9 includes a fixing member 91, a bottom plate 92, a supporting member 93 and supporting legs 94, the supporting member 93 is in the shape of a right triangle, the fixing member 91 is disposed on the outer wall of the guiding plate 63, one side of the bottom plate 92 is connected with the fixing member 91, two right-angled sides of the supporting member 93 are respectively connected with the fixing member 91 and the bottom plate 92, and the supporting legs 94 are disposed on the bottom surface of the bottom plate 92.

The supporting seat 9 is arranged on the outer wall of the guide plate 63, the supporting seat 9 is located on the outer wall of the upper portion of the guide plate 63, the supporting legs 94 are arranged on the bottom surface of the bottom plate 92 of the supporting seat 9, the supporting legs are also arranged on the bottom surface of the support seat 61, and because one ends of the first vertical conveying mechanism 6 and the second vertical conveying mechanism 7 penetrate through the floor 71 and then are connected with the equipment, the supporting legs 94 of the supporting seat 9 are supported on the floor 71 on the upper layer, the supporting legs of the support seat 61 are supported on the floor 71 on the lower layer, and the first vertical conveying mechanism 6 and the second vertical conveying mechanism 7 are stably arranged on the two adjacent floors 71 from top to bottom. The support member 93 has a right-angled triangular shape, and the stability of the support base 9 formed by the fixing member 91, the bottom plate 92, and the support member 93 can be improved.

The tensioning mechanism 8 comprises two tensioning members 81 which are symmetrically arranged, the driven shaft 65 is arranged between the two tensioning members 81, two ends of the driven shaft 65 are respectively connected with the two tensioning members 81 in a rotating manner, and the tensioning members 81 are connected with the upper end of the guide plate 63 through the adjusting rod 82. One end of the adjusting rod 82 is inserted into the through hole of the guide plate 63, the other end of the adjusting rod 82 is connected with the tensioning piece 81, the outer wall of the adjusting rod 82 is provided with threads, and the adjusting rod 82 is sleeved with a locking nut. When the tension degree of the transmission belt 66 needs to be adjusted, the locking nut is unscrewed, the adjusting rod 82 is pulled upwards or pressed downwards, and then the locking nut is screwed, so that the height of the driven shaft 65 arranged between the two tensioning members 81 is adjusted, and the tension degree of the transmission belt 66 is adjusted.

The horizontal conveying mechanism 3 comprises a first horizontal conveying mechanism 31 and a second horizontal conveying mechanism 32, a strip pack conveying follow-up channel merging mechanism 10 is arranged between the first horizontal conveying mechanism 31 and the second horizontal conveying mechanism 32, the first horizontal conveying mechanism 31 is connected with a second vertical conveying mechanism 7, and the second horizontal conveying mechanism 32 is connected with an array discharging mechanism 4.

The first horizontal conveying mechanism 31 and the second horizontal conveying mechanism 32 are used for conveying the strip bales in the horizontal direction, and the strip bale conveying follow-up combining mechanism 10 is used for realizing seamless connection and secondary counting of front and rear equipment.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention are intended to be included within the scope of the present invention.

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