CN221214778U - Tank body packaging production line - Google Patents

Abstract

The utility model relates to the technical field of packaging production lines, in particular to a tank body packaging production line. The tank body packaging production line comprises: a frame on which the can body is transported, wherein a packaging mechanism is arranged at the tail end of the frame along the transportation direction; the separation plates are detachably fixed on the frame and extend to the packaging mechanism along the conveying direction, and the separation plates are arranged in parallel and at intervals; the first clamping blocks are clamped between the adjacent partition boards, and are combined with the partition boards to form a plurality of tank conveying channels with equal widths; the number of the tank conveying channels is changed by changing the number of the first clamping blocks and the partition plates, so that the number of columns and the number of the tank bodies which are singly packaged by the packaging mechanism are changed. The tank body packaging production line provided by the utility model has the advantages that the structure of the combined die is adjustable, and multiple packaging forms are realized on a single production line; the number of the partition plates and the first clamping blocks is adjusted, the arrangement of the tank body is changed, and different packaging forms are switched; the scattered tank body is automatically regular, and the regular mode is soft; the size of the mould can be changed, and the packaging machine is suitable for packaging different can bodies.

Description

Tank body packaging production line

Technical Field

The utility model relates to the technical field of packaging production lines, in particular to a tank body packaging production line.

Background

The packaging production line realizes all operation procedures from the production to the box entering before the product is an important process of product production; for different packaged products, corresponding packaging production lines are provided; the tank body packaging production line mainly aims at the packaging and box-entering flow of tank body products.

In the prior art, only one packaging form of a single can body packaging production line exists, the number of can bodies which can be packaged by a single device is fixed, and the packaging production requirement cannot be met; meanwhile, a plurality of different packaging production lines are required to be manufactured aiming at a plurality of packaging forms, so that time and labor are wasted, the production cost is extremely high, and resources are wasted.

Disclosure of utility model

Therefore, the technical problem to be solved by the utility model is to overcome the defect that only one packaging form of a single can body packaging production line in the prior art exists, so as to provide a can body packaging production line capable of realizing multiple packaging forms on a single device.

In order to solve the technical problems, the utility model provides a can body packaging production line, which comprises:

The packaging machine comprises a frame, a packaging mechanism and a packaging mechanism, wherein a tank body is conveyed on the frame, and the packaging mechanism is arranged at the tail end of the frame along the conveying direction;

The separation plates are detachably fixed on the frame and extend to the packaging mechanism along the conveying direction, and a plurality of separation plates are arranged in parallel and at intervals;

the first clamping blocks are clamped between the adjacent partition boards, and the first clamping blocks and the partition boards are combined to form a plurality of tank conveying channels with equal widths;

The number of the tank conveying channels is changed by changing the number of the first clamping blocks and the partition plates, so that the number of columns and the number of the tank bodies which are packaged by the packaging mechanism for a single time are changed.

Optionally, the method further comprises: the second clamping blocks are arranged on two sides of the tank conveying channel row group along the width direction and are clamped between the partition plates;

The second clamping block and the partition plate are combined to form a foam conveying channel which is suitable for feeding a foam plate.

Optionally, the method further comprises: the single foam adding device is arranged at one side of the frame along the width direction;

The single person foaming device comprises: the device comprises a support frame, a first feeding plate, a second feeding plate and a blowing mechanism;

The first feeding plate is connected to the foam conveying channel on the same side of the supporting frame, and the second feeding plate is connected to the foam conveying channel on the opposite side of the supporting frame;

The blowing mechanism comprises an advancing nozzle and a positioning nozzle;

The advancing nozzle is positioned at the starting end of the conveying direction of the foam board;

The inlet nozzle is positioned at the discharge holes of the first feeding plate and the second feeding plate, and the nozzle of the inlet nozzle faces the foam conveying channel;

The foam plate is pushed to move to the foam conveying channel on the first feeding plate and the second feeding plate by the air flow emitted by the advancing nozzle, and the foam plate is pushed to enter the foam conveying channel by the air flow emitted by the position entering nozzle.

Optionally, the packaging mechanism further comprises: the pushing device and the blanking auxiliary device are arranged below the pushing device relatively;

The pushing device is movably fixed on the frame;

The pushing device consists of a plurality of baffles and third clamping blocks clamped between the baffles, and the baffles and the third clamping blocks are combined to form a plurality of tank body packaging columns with equal size;

The blanking auxiliary device consists of a fixed plate and a slat with two ends respectively connected to the fixed plate; the strips extend along the conveying direction of the tank body, and a plurality of strips are arranged on the blanking auxiliary device in parallel and at even intervals;

A tank blanking channel is reserved between the adjacent battens;

The tank body is supported by the lath to enter the pushing device, the pushing device moves forward along the first direction, and the baffle pushes the tank body to fall down and enter the packing box under the constraint of the tank body blanking channel.

Optionally, the pushing device further includes: the fourth clamping blocks are arranged on two sides of the tank body packaging row group and are clamped between the baffles; the fourth clamping blocks and the baffle are combined to form a foam packaging column;

foam blanking channels are arranged on two sides of the tank blanking channel row group;

The foam conveying channel outlet is connected with the foam packaging column inlet, the foam plates enter the pushing device through the lath support, the pushing device moves forward along the first direction, and the baffle plates push the foam plates to fall down and enter the packaging box under the constraint of the foam blanking channel.

Optionally, the pushing device pushes the tank body and the foam board to move in the opposite direction to return after falling into the packaging box;

and power devices are arranged on two sides of the pushing device.

Optionally, the number of the baffle plates and the third clamping blocks in the pushing device is correspondingly adjusted along with the change of the number of the baffle plates and the first clamping blocks so as to adapt to the packaging form.

Optionally, the conveying plate of the second feeding plate faces downwards in the conveying direction of the tank body, so as to form a conveying plane which is obliquely arranged, and the foam plate can slide into the foam conveying channel.

Optionally, the upper part of the plate body of the partition plate extends upwards to form protrusions, and the protrusions are arranged at intervals along the extending direction of the partition plate;

the protrusion is inserted into the clamping block, and the clamping block is fixed through the fixing shaft;

The two ends of the fixed shaft are respectively fixed on the two sides of the frame along the width direction.

Optionally, according to the number of columns of the tank bodies packaged by the packaging mechanism at a time, whether the foam conveying channel is arranged or not is selected to convey the foam board material.

The technical scheme of the utility model has the following advantages:

1. According to the tank body packaging production line, through the arrangement of the combined die with the adjustable structural form, the designed partition plate and the first clamping blocks can be detached, the purpose of realizing multiple packaging forms on a single production line is achieved, and through the adjustment of the number of the partition plate and the first clamping blocks, the arrangement of the tank body is changed, different packaging forms are switched, and the purpose of compatibility of multiple packaging forms is achieved; compared with the monotone packing form in the prior art, the packaging machine has the advantages of multiple packing types, flexible packing modes, convenient use and the like; the packaging and containing modes meet the diversified requirements of the packaging modes, and the practicability is high; the plurality of clapboards arranged in parallel with each other plays a role in automatically and regularly arranging scattered tank bodies, so that manpower is saved, and the production efficiency is improved; the regular mode is soft, the tank body is protected from being damaged by collision, and the protection effect on the packaged products is improved; the width of the first clamping block and the width of the third clamping block can be changed to adapt to the tank body packaging operation with different sizes, so that the practicality is high and the economic benefit is high.

2. According to the tank body packaging production line, the second feeding plates crossing the frame are arranged, so that the feeding ends of the foam plates are positioned on the same side of the frame, the feeding work of the positions on two sides of the frame is completed by a single station, a double-side feeding structure is replaced, human resources are saved, and the production capacity is improved; the feeding range is always within the operation range which can be completed by a single person, so that the working intensity of staff operation is reduced; the feeding mode is continuous single action, and the operation adaptability is high, and the practicability is strong.

3. According to the tank body packaging production line, the pushing device is matched with the blanking auxiliary device, the posture and the direction of the falling tank are controlled regularly, the purpose of stable tank body entering is achieved, tank body entering is an important process in the packaging process, the tank body packaging row is matched with the tank body blanking channel structure, the tank pushing action is closely connected with the limiting process, the tank bodies are continuously constrained in space when falling, collision damage among the tank bodies is prevented, the falling direction of the tank bodies is constrained, the normal and smooth tank entering of the tank bodies is guaranteed, and good practicability and economic benefits are achieved.

4. According to the tank body packaging production line, the pushing device is composed of the detachable baffle plates and the clamping blocks, so that the number of tank body packaging columns can be adjusted, the requirement of the whole packaging production line is met, the structural design is matched with the packaging form, an auxiliary effect is achieved for switching various packaging forms, and smooth packaging work is guaranteed.

5. According to the tank packaging production line, the second feeding plate which is obliquely downwards arranged along the foam conveying direction is arranged, so that the foam plate can move into the frame more conveniently, the problem that the foam plate in the second feeding plate is difficult to feed due to a long conveying path is solved, the production and processing efficiency is high, the feeding capacity of a single foam feeding device is improved, and the practicability of the device is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a can packaging line of the present utility model;

FIG. 2 is an enlarged schematic view of the utility model at A;

FIG. 3 is an exploded view of the spacer plate of the present utility model with the first and second clamping blocks;

FIG. 4 is a schematic view of the structure of the single person foam adding device of the present utility model;

FIG. 5 is an overall schematic of a pusher of the present utility model;

FIG. 6 is an exploded view of the pusher of the present utility model;

fig. 7 is a schematic diagram of a blanking auxiliary device of the present utility model.

Reference numerals illustrate:

1. A frame; 2. a partition plate; 21. a clamping block; 22. a fixed shaft; 23. a protrusion; 3. a first clamping block; 4. a second clamping block; 5. a single person foam adding device; 51. a first loading plate; 52. a second loading plate; 53. a blowing mechanism; 531. advancing the nozzle; 532. a positioning nozzle; 54. a support frame; 6. a tank conveying channel; 7. a foam delivery channel; 71. a foam board; 8. a pushing device; 81. a baffle; 82. a third clamping block; 83. a tank body packaging column; 84. a fourth clamping block; 85. a foam packaging column; 9. a blanking auxiliary device; 91. a slat; 92. a tank blanking channel; 93. a foam blanking channel; 94. and a fixing plate.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1

Referring to fig. 1 to 7, a tank packaging line provided in this embodiment includes:

The packaging machine comprises a frame 1, wherein a tank body is conveyed on the frame 1, and a packaging mechanism is arranged at the tail end of the frame 1 along the conveying direction;

The separation plates 2 are detachably fixed on the frame 1 and extend to the packaging mechanism along the conveying direction, and a plurality of separation plates 2 are arranged in parallel and at intervals;

the first clamping blocks 3 are clamped between the adjacent partition boards 2, and the first clamping blocks 3 and the partition boards 2 are combined to form a plurality of tank conveying channels 6 with equal widths;

The number of the tank conveying channels 6 is changed by changing the number of the first clamping blocks 3 and the partition plates 2, so that the number of columns and the number of the tank bodies which are packaged by the packaging mechanism for one time are changed.

The partition board 2 and the first clamping blocks 3 are used as a trimming die, and the scattered tank groups are trimmed into trimming rows and columns before packaging; because baffle 2 with first clamp splice 3 is detachable design, therefore the mould possesses the adjustability, through the structural style who changes the mould, changes the column number size of regular back jar body, and then changes form and the quantity of single packing, reaches the purpose that realizes multiple packing form on single production line.

Referring to fig. 1-3, the packaging mechanism packages a group of cans with a quantitative row number a×a variable column number n, wherein the number of the partition boards 2 is n+1, the number of the first clamping blocks 3 is n, and the number of the can conveying channels 6 is n; by increasing the number of the first clamping blocks 3 to n+x and the number of the partition plates 2 to n+x+1, the number of the tank conveying channels 6 is changed to n+x, and the packing form of the packing mechanism is changed to a number of rows a×columns n+x; by reducing the number of the first clamping blocks 3 to n-x and the number of the partition plates 2 to n-x+1, the number of the tank conveying channels 6 is changed to n-x, and the packing form of the packing mechanism is changed to a number of rows a×columns n-x; the number of the first clamping blocks 3 is always equal to the number of the packing columns of the packing mechanism, and the tank arrangement is changed by adjusting the number of the partition plates 2 and the first clamping blocks 3, so that different packing forms are switched, and the aim of compatibility of multiple packing forms is fulfilled.

The packing form of the tank body packing production line shown in fig. 1 is 4 rows by 5 columns, the number of packing tank bodies is 20 tanks, the number of the partition boards 2 is 6, and the number of the first clamping blocks 3 is 5; by adding 1 partition plate 2 and 1 first clamping block 3 on the conveying plane of the frame 1, the added partition plates 2 are parallel to the original partition plates 2, so that the number of tank conveying channels 6 is changed from 5 columns to 6 columns, the packaging form of the packaging mechanism is changed into 4 rows by 6 columns, and the number of packaging tank bodies is changed into 24 tanks; by removing 1 partition plate 2 and 1 first clamping block 3 on the conveying plane of the frame 1, the rest partition plates 2 and the first clamping blocks 3 are arranged adaptively, the number of tank conveying channels 6 is changed from 5 columns to 4 columns, the packaging form of the packaging mechanism is changed into 4 rows by 4 columns, and the number of packaging tank bodies is changed into 16 tanks.

Optionally, the width of the first clamping block 3 is close to the width of the third clamping block 82, and both the width and the size are similar to the diameter of the can body, and the width and the size of the first clamping block 3 and the width and the size of the third clamping block 82 can be changed to adapt to the can body packaging operation with different sizes, so that the practicality is strong, and the economic benefit is high.

In the embodiment, through arranging the combined die with adjustable structural form, the separation plate 2 and the first clamping block 3 which can be designed in a detachable way can achieve the aim of realizing multiple packaging forms on a single production line, and through adjusting the number of the separation plate 2 and the first clamping block 3, the arrangement of the tank body is changed, and different packaging forms are switched, so that the aim of realizing compatibility of multiple packaging forms is fulfilled; compared with the monotone packing form in the prior art, the packaging machine has the advantages of multiple packing types, flexible packing modes, convenient use and the like; the packaging and containing modes meet the diversified requirements of the packaging modes, and the practicability is high; the plurality of clapboards 2 which are arranged in parallel with each other play a role in automatically and regularly arranging scattered tank bodies, so that manpower is saved, and the production efficiency is improved; the regular mode is soft, the tank body is protected from being damaged by collision, and the protection effect on the packaged products is improved; the width of the first clamping block 3 and the width of the third clamping block 82 can be changed to adapt to the tank packaging operation with different sizes, so that the practicality is high and the economic benefit is high.

Specifically, the method further comprises the following steps: the second clamping blocks 4 are arranged on two sides of the tank conveying channel 6 row group along the width direction and are clamped between the partition plates 2;

the second clamping block 4 forms, in combination with the partition plate 2, a foam conveying channel 7 adapted to feed a foam sheet 71.

Referring to fig. 1, when the number n of packing columns of the packing mechanism is smaller than or equal to a threshold b, foam structures are required to be arranged on two sides of the tank body row, so that the protection effect on the packed product is improved; by adding one partition plate 2 on each side of the partition plate group and using the second clamping blocks 4 as intervals, the foam conveying channels 7 adjacent to the tank conveying channels 6 are formed, so that the foam plates 71 and the tank move synchronously and are continuously fed into the packaging mechanism.

In this embodiment, the size of the threshold b may be 5, and the number of package columns in the tank body package production line shown in the figure is 5, so that the foam conveying channels 7 need to be disposed at two sides of the tank body conveying channel 6, the total number of the partition boards 2 becomes 8, the foam conveying channels 7 continuously supply the foam boards 71 into the packaging mechanism, and the foam boards 71 are synchronously put into the box along with the tank body row.

Specifically, the method further comprises the following steps: the single foam adding device 5 is arranged on one side of the frame 1 along the width direction;

the single person foaming device 5 comprises: the device comprises a supporting frame 54, a first feeding plate 51, a second feeding plate 52 and a blowing mechanism 53;

the first feeding plate 51 is connected to the foam conveying channel 7 on the same side of the supporting frame 54, and the second feeding plate 52 is connected to the foam conveying channel 7 on the opposite side of the supporting frame 54;

The blowing mechanism 53 includes a forward nozzle 531 and a docking nozzle 532;

The forward nozzle 531 is located at the start end of the conveying direction of the foam sheet 71;

The inlet nozzle 532 is positioned at the discharge ports of the first feeding plate 51 and the second feeding plate 52, and the nozzle of the inlet nozzle 532 faces the foam conveying channel 7;

Wherein the air flow emitted from the forward nozzle 531 pushes the foam board 71 to move on the first feeding board 51 and the second feeding board 52 to the position of the foam conveying channel 7, and the air flow emitted from the in-situ nozzle 532 pushes the foam board 71 into the foam conveying channel 7.

As shown in fig. 1 and 4, the end of the first loading plate 51 is connected to the foam conveying channel 7 located on the same side of the supporting frame 54, and the second loading plate 52 spans the frame 1 and is connected to the foam conveying channel 7 located on the opposite side of the supporting frame 54; the feeding ends of the first feeding plate 51 and the second feeding plate 52 are both positioned at one side of the frame 1, and the feeding range is within the operation range which can be completed by a single person; the single operator stacks the laminated foam boards on the first feeding plate 51 and the second feeding plate 52 respectively, the forward nozzle 531 at the feeding end emits compressed air to apply force to the board surface of the foam boards to push the foam boards to move forward, the operator continuously supplements the materials at the feeding end until the foam boards continuously move forward to the foam conveying channel 7, the in-place nozzle 532 emits compressed air to apply force to the side surfaces of the foam boards to push the single foam boards 71 to enter the foam conveying channel 7, and the foam boards and the tank body synchronously move forward under the action of the conveying structure.

In this embodiment, by arranging the second feeding plate 52 across the frame 1, the feeding ends of the foam plates 71 are all located at the same side of the frame 1, so that the feeding work of the positions at two sides of the frame 1 is completed by a single station, the double-side feeding structure is replaced, the manpower resources are saved, and the production capacity is improved; the feeding range is always within the operation range which can be completed by a single person, so that the working intensity of staff operation is reduced; the feeding mode is continuous single action, and the operation adaptability is high, and the practicability is strong.

Specifically, the packaging mechanism further includes: the pushing device 8 and a blanking auxiliary device 9 arranged below the pushing device 8;

The pushing device 8 is movably fixed on the frame 1;

The pushing device 8 is composed of a plurality of baffles 81 and third clamping blocks 82 clamped between the baffles 81, and the baffles 81 and the third clamping blocks 82 are combined to form a plurality of tank body packaging columns 83 with equal sizes;

The blanking auxiliary device 9 consists of a fixed plate 94 and a slat 91 with two ends respectively connected to the fixed plate 94; the strips 91 extend along the conveying direction of the tank body, and a plurality of strips 91 are arranged on the blanking auxiliary device 9 in parallel and at uniform intervals;

A tank blanking channel 92 is reserved between the adjacent slats 91;

The outlet of the tank conveying channel 6 is connected with the inlet of the tank packaging column 83, the tank is supported by the lath 91 to enter the pushing device 8, the pushing device 8 moves forward along the first direction, and the baffle 81 pushes the tank to pass through the tank blanking channel 92 to be restricted to fall and enter the packaging box.

As shown in fig. 1-7, the front side of the fixing plate 94 on the blanking auxiliary device 9 is provided with a mounting hole, a connecting pin is extended outwards at the conveying end of the frame 1, and the blanking auxiliary device 9 is fixed on the frame 1 in a pin joint fit manner and is positioned under the pushing device 8; the plurality of slats 91 are respectively located right in front of the corresponding can body conveying channels 6, and the plurality of can body packaging columns 83 in the pushing device 8 are respectively located right above the corresponding slats 91.

The jar body is arranged the component multirow and is got into a plurality of in the jar body packing row 83, slat 91 plays the bearing effect, treat that the jar body of single packing gets into completely in the pusher 8 after, pusher 8 moves certain distance to first direction forward, makes jar body packing row 83 aim at jar body blanking passageway 92, jar body bottom no longer receives the support, and the jar body receives the gravity influence whereabouts and passes through jar body blanking passageway 92 arrives in the box, jar body blanking passageway 92 standardizes jar gesture and direction for jar body is smooth and regular into the case, accomplishes the packing work of jar body.

In this embodiment, pusher 8 and blanking auxiliary device 9 mutually support, and the gesture and the direction of normal control falling the jar realize that the jar body is stable into the case purpose, and the jar body is the important process of packing in-process, and jar body packing is listed as 83 and jar body blanking passageway 92 structural fit, pushes away jar action and spacing process and closely meet, receives the space constraint in succession when making jar body fall the jar, prevents to take place to collide with the damage between the jar body, retrains jar body whereabouts direction, guarantees jar body normal and goes into the case smoothly, has good practicality and economic benefits.

Specifically, the pushing device 8 further includes: fourth clamping blocks 84 which are arranged on two sides of the row group of the tank body packaging columns 83 and are clamped between the baffle plates 81; the fourth clamping block 84 and the baffle 81 are combined to form a foam package column 85;

Foam blanking channels 93 are arranged on two sides of the tank body blanking channel 92 row group;

Wherein, the outlet of the foam conveying channel 7 is connected with the inlet of the foam packaging column 85, the foam board 71 is supported by the lath 91 to enter the pushing device 8, the pushing device 8 moves forward along the first direction, and the baffle 81 pushes the foam board 71 to pass through the foam blanking channel 93 to restrict falling and enter the packaging box.

As shown in connection with fig. 1-7, the width of the fourth clamping block 84 is close to the width of the second clamping block 4 and is approximately the thickness of the foam board 71; the strip plate on one side of the foam blanking channel 93 along the reverse direction of the first direction is a strip plate for bearing foam, and the strip plate for bearing foam is positioned right in front of the foam conveying channel 7; two foam package rows 85 in the pushing device 8 are respectively located right above the corresponding foam-carrying laths.

After the single foam board 71 completely enters the pushing device 8, the pushing device 8 moves forward a certain distance in a first direction, so that the foam board 71 is aligned to the foam blanking channel 93, the foam board 71 falls under the influence of gravity and passes through the foam blanking channel 93 into the box body, and the foam blanking channel 93 standardizes the falling gesture and direction of the foam, so that the foam is synchronously and regularly fed into the box along with the tank body, and the packaging work of the tank body is completed.

Specifically, the pushing device 8 pushes the tank body and the foam board 71 to fall into the packaging box and then act in the opposite direction to return;

the power devices are arranged on two sides of the pushing device 8.

Referring to fig. 1, after the can and the foam fall completely, the pushing device 8 moves reversely in the first direction for the same distance to reset, so that the can packing row 83 is aligned with the can conveying channel 6, the foam packing row 85 is aligned with the foam conveying channel 7, and then the above packing process is repeated to complete the continuous packing work; the pushing device 8 is movably connected to the frame 1 by means of a transverse shaft, a thrust cylinder is arranged on the pushing device 8, and the cylinder is electrically connected with the main control system to automatically control the movement of the pushing device 8.

Specifically, the number of the baffle plates 81 and the third clamping blocks 82 in the pushing device 8 is correspondingly adjusted according to the number of the partition plates 2 and the first clamping blocks 3 so as to adapt to the packaging form.

Referring to fig. 5-6, the structural form of the pushing device 8 is correspondingly adjusted along with the change of the number of packaging columns, so that the number of the tank packaging columns 83 is always equal to the number of the tank conveying channels 6; the baffle 81 and the third clamping blocks 82 on the pushing device 8 are all detachable, and the number of the tank packaging columns 83 is changed by adjusting the number of the baffle 81 and the third clamping blocks 82, so that the pushing device 8 is always matched with the tank packaging form.

In this embodiment, pusher 8 comprises detachable baffle and clamp splice, makes jar body packing is listed as 83 quantity and can be adjusted, satisfies the needs of whole packing production line, and structural design and packaging form phase-match play the auxiliary role for switching multiple packaging form, guarantee going on smoothly of packing work.

Specifically, the conveying plate of the second loading plate 52 is disposed downward facing the conveying direction of the tank, so as to form a conveying plane disposed obliquely, and the foam plate 71 is facilitated to slide into the foam conveying channel 7.

Referring to fig. 1, the second loading plate 52 may be inclined at a certain angle, specifically 20 degrees, 30 degrees and 45 degrees, around the first direction; the inclined surface end of the second feeding plate 52 is connected with the foam conveying channel 7, and the foam plate 71 slides into the foam conveying channel 7 from the inclined plate surface to assist in foam feeding.

In this embodiment, through setting up the second loading board 52 that sets up downwards along foam direction of delivery slope, make the removal of foam board 71 in to frame 1 more convenient, solve the foam board 71 in the second loading board 52 because of the problem that the delivery path is difficult to the material loading far away, production machining efficiency is high, increases single loading foam device's material loading ability, has improved the practicality of device.

Specifically, the upper part of the plate body of the partition plate 2 extends upwards to form protrusions 23, and the protrusions 23 are arranged at intervals along the extending direction of the partition plate 2;

The bulge 23 is inserted into the clamping block 21, and the clamping block 21 is penetrated and fixed through the fixed shaft 22;

the fixed shaft 22 is fixed at both ends thereof to both sides of the frame 1 in the width direction, respectively.

As shown in fig. 1-2, the projections 23 on the plurality of partition boards 2 are at least partially overlapped in front projection in the first direction, the clamping blocks 21 are clamped on the projections 23, two ends of the fixing shaft 22 are respectively detachably fixed on two sides of the frame 1 in the width direction, and the shaft bodies of the fixing shaft 22 penetrate through the clamping block 21 to be assembled and fixed in rows, so that the partition boards 2 are fixed on the frame 1; the protrusions 23 are detachably connected with the clamping blocks 21, the clamping blocks 21 are detachably connected with the fixing shafts 22, and the fixing shafts 22 are detachably connected with the frame 1.

Specifically, according to the number of columns of the cans individually packaged by the packaging mechanism, whether the foam conveying channel 7 is provided for conveying the foam board 71 for material supplement is selected.

Referring to fig. 1-7, if the number n of packaging columns of the packaging mechanism is less than or equal to the threshold b, foam structures are required to be arranged on two sides of the tank body row group, so as to perform the functions of material supplementing and protecting of the tank body row group; in this embodiment, the size of the threshold b may be 5, and the number of package columns in the tank body package production line shown in the figure is 5, so that the foam conveying channels 7 need to be disposed at two sides of the tank body conveying channel 6, the total number of the partition boards 2 becomes 8, the foam conveying channels 7 continuously supply the foam boards 71 into the packaging mechanism, and the foam boards 71 are synchronously put into the box along with the tank body row.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (10)

1. The utility model provides a jar body packing production line which characterized in that includes:

the packaging machine comprises a frame (1), wherein a tank body is conveyed on the frame (1), and a packaging mechanism is arranged at the tail end of the frame (1) along the conveying direction;

The separation plates (2) are detachably fixed on the frame (1) and extend to the packaging mechanism along the conveying direction, and the separation plates (2) are parallel and are arranged at intervals;

The first clamping blocks (3) are clamped between adjacent partition boards (2), and the first clamping blocks (3) and the partition boards (2) are combined to form a plurality of tank conveying channels (6) with equal widths;

The number of the tank conveying channels (6) is changed by changing the number of the first clamping blocks (3) and the partition plates (2), so that the number of columns and the number of the tank bodies which are singly packaged by the packaging mechanism are changed.

2. The can packaging line of claim 1, further comprising: the second clamping blocks (4) are arranged on two sides of the tank conveying channel (6) in the row direction and are clamped between the partition plates (2);

The second clamping block (4) is combined with the partition plate (2) to form a foam conveying channel (7) which is suitable for feeding a foam plate (71).

3. The can packaging line of claim 2, further comprising: the single foam adding device (5) is arranged at one side of the frame (1) along the width direction;

The single person foaming device (5) comprises: the device comprises a supporting frame (54), a first feeding plate (51), a second feeding plate (52) and a blowing mechanism (53);

The first feeding plate (51) is connected to the foam conveying channel (7) on the same side of the supporting frame (54), and the second feeding plate (52) is connected to the foam conveying channel (7) on the opposite side of the supporting frame (54);

The blowing mechanism (53) comprises a forward nozzle (531) and a position-entering nozzle (532);

The advancing nozzle (531) is located at the start end of the conveying direction of the foam board (71);

the inlet nozzle (532) is positioned at the discharge holes of the first feeding plate (51) and the second feeding plate (52), and the nozzle of the inlet nozzle (532) faces the foam conveying channel (7);

The foam plate (71) is pushed to move to the position of the foam conveying channel (7) on the first feeding plate (51) and the second feeding plate (52) by the air flow emitted by the advancing nozzle (531), and the foam plate (71) is pushed to enter the foam conveying channel (7) by the air flow emitted by the in-place nozzle (532).

4. A can packaging line as in claim 3 wherein the packaging mechanism further comprises: the pushing device (8) and the blanking auxiliary device (9) are arranged below the pushing device (8) relatively;

the pushing device (8) is movably fixed on the frame (1);

The pushing device (8) is composed of a plurality of baffles (81) and third clamping blocks (82) clamped between the baffles (81), and the baffles (81) and the third clamping blocks (82) are combined to form a plurality of tank body packaging columns (83) with equal sizes;

The blanking auxiliary device (9) consists of a fixed plate (94) and a slat (91) with two ends respectively connected to the fixed plate (94); the strips (91) extend along the conveying direction of the tank body, and a plurality of strips (91) are arranged on the blanking auxiliary device (9) in parallel and at uniform intervals;

a tank body blanking channel (92) is reserved between the adjacent battens (91);

The tank body is supported by the lath (91) and enters the pushing device (8), the pushing device (8) moves forward along the first direction, and the baffle (81) pushes the tank body to pass through the tank body blanking channel (92) to restrict falling and enter the packaging box.

5. The can packaging line according to claim 4, wherein the pushing device (8) further comprises: fourth clamping blocks (84) which are arranged on two sides of the tank body packaging row (83) and are clamped between the baffle plates (81); -said fourth clamping block (84) is combined with said baffle (81) to form a foam packing column (85);

foam blanking channels (93) are arranged on two sides of the tank blanking channel (92) row group;

Wherein, foam conveying passageway (7) export with foam packing is listed as (85) entry and is met, foam board (71) are with the help of slat (91) support get into in pusher (8), pusher (8) are along the forward removal of first direction, baffle (81) promote foam board (71) pass through foam blanking passageway (93) constraint whereabouts and get into in the packing box.

6. The can packaging line according to claim 5, wherein the pushing device (8) pushes the cans and the foam boards (71) to return after falling into the packaging boxes;

And power devices are arranged on two sides of the pushing device (8).

7. Tank packaging line according to claim 4, characterized in that the number of baffles (81) and third clamping blocks (82) in the pushing device (8) is correspondingly adjusted as the number of baffles (2) and first clamping blocks (3) is changed to adapt to the packaging form.

8. A tank packaging line as claimed in claim 3, characterised in that the conveying plate of the second loading plate (52) is arranged facing downwards in the direction of transport of the tank, forming a conveying plane arranged obliquely, facilitating the sliding of the foam plate (71) into the foam conveying channel (7).

9. The can body packaging production line according to claim 1, wherein the upper part of the partition plate (2) is provided with protrusions (23) extending upwards, and the protrusions (23) are arranged at intervals along the extending direction of the partition plate (2);

The bulge (23) is inserted into the clamping block (21), and the clamping block (21) is penetrated and fixed through the fixed shaft (22);

The two ends of the fixed shaft (22) are respectively fixed on two sides of the frame (1) along the width direction.

10. A tank packaging line according to claim 2, characterized in that it is chosen whether or not the foam conveying channel (7) is provided for conveying the foam board (71) feed according to the number of columns of the tank individually packaged by the packaging mechanism.