CN211464629U

CN211464629U - Multi-tank production line

Info

Publication number: CN211464629U
Application number: CN201921491609.8U
Authority: CN
Inventors: 黄小林; 王伯伦; 程立斌
Original assignee: Suzhou Hycan Holdings Co ltd
Current assignee: Suzhou Hycan Holdings Co ltd
Priority date: 2019-09-09
Filing date: 2019-09-09
Publication date: 2020-09-11
Anticipated expiration: 2029-09-09

Abstract

The utility model provides a many jars type production line, it is provided with the production mould of two kind at least jar types on producing the line for the land that the line occupy is with low costs, and improves sharing equipment's use value simultaneously. It includes the jar body transfer chain of step-by-step transport, jar body transfer chain be provided with location station, expansion and impression combination station, go up turn-ups and upper back cover combination station, stand up the station, turn over down turn-ups and lower back cover combination station along direction of delivery in order, the front end of jar body transfer chain is provided with the transfer chain, the output line has been arranged to the rear end of jar body transfer chain, expansion and impression combination station specifically includes the combined support, set up a driving motor directly over the combined support, two output of a driving motor are connected with expansion drive assembly, impression drive assembly respectively, be provided with the quick change structure on the combined support, the structural 1 st expansion mould, 2 nd expansion mould, … Nth side mould of having arranged in order of quick change.

Description

Multi-tank production line

Technical Field

The utility model relates to a technical field of packing jar preparation specifically is a many jars of type production lines.

Background

When the existing packaging can is manufactured, one can type needs a complete production line to manufacture during normal production, and in actual production, each can type corresponds to an independent production line and needs to occupy a large amount of workshop space, so that the land cost is high; when order making is carried out, a plurality of production lines are generally idle, so that the use value of equipment on the production lines is relatively low; therefore, a scheme capable of reducing land cost and improving the use value of equipment is urgently needed.

Disclosure of Invention

To the above problem, the utility model provides a many jars type production line, its production mould that is provided with two kind at least jar types on producing the line for the land cost who produces the line and occupy is low, and improves sharing device's use value simultaneously.

A many jar type production line which characterized in that: the tank body conveying line comprises a tank body conveying line for step conveying, wherein a positioning station, an expansion and imprinting combined station, an upper flanging and upper bottom sealing combined station, a turnover station, a lower flanging and lower bottom sealing combined station are sequentially arranged along the conveying direction of the tank body conveying line, a conveying line is arranged at the front end of the tank body conveying line, an output line is arranged at the rear end of the tank body conveying line, the expansion and imprinting combined station specifically comprises a combined support, a first driving motor is arranged right above the combined support, two output ends of the first driving motor are respectively connected with an expansion driving assembly and an imprinting driving assembly, a quick-change structure is arranged on the combined support, a 1 st expansion mold, a 2 nd expansion mold, a … nth imprinting mold, a 1 st mold, a 2 nd imprinting mold and a … nth imprinting mold are sequentially arranged on the quick-change structure, wherein N is a natural number more than or equal to 2, when the quick-change structure stops moving, at least one group of M expanding square die and M group of stamping die are arranged right below the expanding square driving component and the stamping driving component, wherein M is more than or equal to 1 and less than or equal to N, and M is a natural number.

It is further characterized in that: the upper flanging and upper bottom sealing combined station comprises a plurality of groups of upper flanging and upper bottom sealing combined dies which are sequentially arranged along the tank body conveying line, a M upper flanging die, a M upper bottom sealing die and an M upper bottom sealing feeding structure are integrated on the mounting seats of the M upper flanging and upper bottom sealing combined dies and are sequentially arranged, wherein M is larger than or equal to 1 and smaller than or equal to N, M is a natural number, and a tank body jacking device is respectively arranged under the upper flanging die and the upper bottom sealing die of each upper flanging and upper bottom sealing combined die;

the lower flanging and lower back cover combined station comprises a plurality of groups of lower flanging and lower back cover combined dies which are sequentially arranged along the tank body conveying line, an Mth lower flanging die, an Mth lower back cover die and an Mth lower back cover feeding structure are integrated on the mounting seats of the Mth upper flanging and upper back cover combined dies and are sequentially arranged, wherein M is larger than or equal to 1 and smaller than or equal to N, M is a natural number, and a tank body jacking device is respectively arranged under the lower flanging die and the lower back cover die of each lower flanging and lower back cover combined die;

the tank body jacking device is a one-to-two power jacking device, namely, one power source drives two tank bodies at corresponding positions to synchronously ascend, so that the flanging and the bottom sealing of corresponding stations are synchronously carried out;

the quick-change structure is a linear advancing structure or a rotary advancing structure;

when the value of N is 2, quick change mechanism specifically is sharp slider structure, sharp slider structure inlay install in the linear guide setting of sectional shelf, the bottom central point of sharp slider structure puts along jar body transfer chain 1 st rising side mould, 2 nd rising side mould, 1 st impression mould, 2 nd impression mould of having arranged in order.

After the technical scheme is adopted, the tank bodies are conveyed in a stepping mode through the same tank body conveying line, at least two groups of forming dies capable of rapidly switching opening or closing states are arranged above the tank body conveying line, a universal positioning module and a turnover module are adopted, a universal conveying line is arranged at the input end of the tank body conveying line, a universal output line is arranged at the output end of the tank body conveying line, and the forming dies of the tank bodies of corresponding models are driven to be in a working state by driving the tank bodies of different models to move along the tank body conveying line, so that the tank bodies are sequentially positioned through welding seams, expanded, stamped, upper flanged edges, upper back sealed bottoms, turnover, lower flanged edges and lower back sealed bottoms to form finished tank bodies and; the production line is provided with at least two tank-shaped production molds, so that the land cost occupied by the production line is low, and the use value of shared equipment is improved; it is especially suitable for manufacturing square cans.

Drawings

FIG. 1 is a first schematic structural diagram of a front view of a production line according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram (continuing to the rear position of fig. 1) of the front view of the production line according to the embodiment of the present invention;

FIG. 3 is a first perspective view of a production line according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a production line according to an embodiment of the present invention (continuing to a rear position of fig. 3);

the names corresponding to the sequence numbers in the figure are as follows:

the tank body lifting device comprises a tank body conveying line 1, a positioning station 2, an expansion and impression combined station 3, an upper flanging and upper back cover combined station 4, a turnover station 5, a lower flanging and lower back cover combined station 6, a conveying line 7, a combined support 8, a first driving motor 9, an expansion driving assembly 10, an impression driving assembly 11, a tank body lifting device 12, a linear sliding block structure 13, a 1 st expansion die 14, a 2 nd expansion die 15, a 1 st impression die 16 and a 2 nd impression die 17

A 1 st upper flanging die 18, a 1 st upper back cover die 19, a 1 st upper back cover feeding structure 20, a 1 st upper flanging and upper back cover combined die 21, a 2 nd upper flanging die 22, a 2 nd upper back cover die 23, a 2 nd upper back cover feeding structure 24, a 2 nd upper flanging and upper back cover combined die 25

The device comprises a 1 st lower flanging die 26, a 1 st lower back cover die 27, a 1 st lower back cover feeding structure 28, a 1 st lower flanging and lower back cover combined die 29, a 2 nd lower flanging die 30, a 2 nd lower back cover die 31, a 2 nd lower back cover feeding structure 32, a 2 nd lower flanging and lower back cover combined die 33 and an output line 34.

Detailed Description

A multi-tank production process comprises the following steps: step-by-step transport of jar body through same a jar body transfer chain, be provided with the forming die that at least two sets of fast switch-over opened or closed state in the top of jar body transfer chain, adopt general location module, stand up the module, input at jar body transfer chain sets up general transfer chain, output at jar body transfer chain sets up general output line, the jar body through driving different models is marchd along jar body transfer chain, the forming die that the jar body of the corresponding model of drive is in operating condition, make jar body pass through the welding seam location in order, the rising, the impression, go up the turn-ups, go up the back cover, stand up, turn-ups down, the back cover forms the output behind the finished product jar.

Two groups of forming dies capable of rapidly switching opening or closing states are arranged above the tank body conveying line, so that one production line can correspondingly produce two tank types;

the tank body conveying line is characterized in that a universal positioning module is arranged at the starting end of the tank body conveying line, a welding line is searched through the universal positioning module to ensure the stable position of tank body conveying, then the tank body is conveyed to an expanding die and an impression die with the corresponding rear models, the surface of the tank body after expanding is printed, then the tank body is conveyed to an upper flanging die and an upper bottom sealing die with the corresponding models through a stepping conveying line, the tank body is conveyed step by step again after being subjected to upper flanging and upper bottom sealing, then the tank body is vertically overturned for 180 degrees through the universal overturning module, then the tank body is conveyed to a lower flanging die and a lower bottom sealing die with the corresponding models, and the tank body is output to an output line after being subjected to lower flanging and;

the two groups of expanding dies and the stamping die are combined to form an integral quick-change structure, so that the expanding dies and the stamping dies with corresponding models can correspond to corresponding positions of production stations after passing through the quick-change structure, and the production efficiency is improved;

combining each group of types of upper flanging dies, upper back cover dies and corresponding upper back cover feeding structures to form an integral upper flanging module, wherein each type of upper flanging module is sequentially arranged in the advancing direction of the tank body conveying line and is fixed in position;

the lower flanging die, the lower back cover die and the corresponding lower back cover feeding structure of each group of models are combined to form a whole lower flanging module, the lower flanging modules of each model are sequentially arranged in the advancing direction of the tank body conveying line and are fixed in position, and when the tank models of the corresponding models need to be manufactured, the corresponding lower flanging modules are started and other lower flanging modules are closed.

A multi-tank type production line, see fig. 1-4: the tank body conveying line comprises a tank body conveying line 1 for step conveying, wherein a positioning station 2, an expanding and stamping combined station 3, an upper flanging and upper bottom sealing combined station 4, a turnover station 5, a lower flanging and lower bottom sealing combined station 6 are sequentially arranged on the tank body conveying line 1 along the conveying direction, a conveying line 7 is arranged at the front end of the tank body conveying line 1, an output line 34 is arranged at the rear end of the tank body conveying line 1, the expanding and stamping combined station 3 specifically comprises a combined support 8, a first driving motor 9 is arranged right above the combined support 8, two output ends of the first driving motor 9 are respectively connected with an expanding driving assembly 10 and a stamping driving assembly 11, a quick-change structure is arranged on the combined support 8, a 1 expanding die, a 2 expanding die, an … N expanding die, a 1 stamping die, a 2 stamping die and a … N stamping die are sequentially arranged on the quick-change structure, n is a natural number more than or equal to 2, when the quick-change structure stops moving, at least one group of M expanding square die and M group of stamping die are arranged right below the expanding square driving component and the stamping driving component, wherein M is more than or equal to 1 and less than or equal to N, and M is a natural number.

The upper flanging and upper bottom sealing combined station 4 comprises a plurality of groups of upper flanging and upper bottom sealing combined dies which are sequentially arranged along a tank body conveying line, a M-th upper flanging die, a M-th upper bottom sealing die and an M-th upper bottom sealing feeding structure are integrated on mounting seats of the M-th upper flanging and upper bottom sealing combined dies and are sequentially arranged, wherein M is more than or equal to 1 and less than or equal to N, M is a natural number, and a tank body jacking device 12 is respectively arranged under the upper flanging die and the upper bottom sealing die of each upper flanging and upper bottom sealing combined die;

the lower flanging and lower back cover combined station 6 comprises a plurality of N groups of lower flanging and lower back cover combined dies which are sequentially arranged along a tank body conveying line, an Mth lower flanging die, an Mth lower back cover die and an Mth lower back cover feeding structure are integrated on the mounting seats of the Mth upper flanging and upper back cover combined die and are sequentially arranged, wherein M is more than or equal to 1 and less than or equal to N, M is a natural number, a tank body jacking device 12 is respectively arranged under the lower flanging die and the lower back cover die of each lower flanging and lower back cover combined die,

the tank jacking device 12 is a two-power jacking device, i.e. one power source drives two tanks at corresponding positions to synchronously lift

In specific implementation, the value of N is 2, the quick-change mechanism is specifically a linear slider structure 13, the linear slider structure 13 is embedded in a linear guide rail of the combined support 8, and a 1 st expansion die 14, a 2 nd expansion die 15, a 1 st stamping die 16 and a 2 nd stamping die 17 are sequentially arranged at the center of the bottom of the linear slider structure 13 along the tank body conveying line 1;

the 1 st upper flanging die 18, the 1 st upper back cover die 19 and the 1 st upper back cover feeding structure 20 are integrated on the mounting seats of the 1 st upper flanging and upper back cover combined die 21 and are sequentially arranged, and the 2 nd upper flanging die 22, the 2 nd upper back cover die 23 and the 2 nd upper back cover feeding structure 24 are integrated on the mounting seats of the 2 nd upper flanging and upper back cover combined die 25 and are sequentially arranged;

the 1 st lower flanging die 26, the 1 st lower back cover die 27 and the 1 st lower back cover feeding structure 28 are integrated on the mounting seats of the 1 st lower flanging and lower back cover combined die 29 and are sequentially arranged, and the 2 nd lower flanging die 30, the 2 nd lower back cover die 31 and the 2 nd lower back cover feeding structure 32 are integrated on the mounting seats of the 2 nd lower flanging and lower back cover combined die 33 and are sequentially arranged;

the 1 st upper flanging and upper back cover combined die 21, the 2 nd upper flanging and upper back cover combined die 25, the turnover station 5, the 1 st lower flanging and upper back cover combined die 29 and the 2 nd lower flanging and upper back cover combined die 33 are sequentially arranged in the conveying direction of the tank body conveying line 1.

The working principle is as follows: the tank body is conveyed step by the same tank body conveying line, at least two groups of forming dies for rapidly switching opening or closing states are arranged above the tank body conveying line, a universal positioning module and a turnover module are adopted, a universal conveying line is arranged at the input end of the tank body conveying line, a universal output line is arranged at the output end of the tank body conveying line, and the forming dies of the tank bodies of corresponding types are driven to be in a working state by driving the tank bodies of different types to move along the tank body conveying line, so that the tank bodies are sequentially positioned by welding seams, expanded, stamped, turned up, turned down and sealed down to form finished tank bodies and then output; the production mold with at least two tank types is arranged on one production line, so that the land cost occupied by the production line is low, and the use value of shared equipment is improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A many jar type production line which characterized in that: the tank body conveying line comprises a tank body conveying line for step conveying, wherein a positioning station, an expansion and imprinting combined station, an upper flanging and upper bottom sealing combined station, a turnover station, a lower flanging and lower bottom sealing combined station are sequentially arranged along the conveying direction of the tank body conveying line, a conveying line is arranged at the front end of the tank body conveying line, an output line is arranged at the rear end of the tank body conveying line, the expansion and imprinting combined station specifically comprises a combined support, a first driving motor is arranged right above the combined support, two output ends of the first driving motor are respectively connected with an expansion driving assembly and an imprinting driving assembly, a quick-change structure is arranged on the combined support, a 1 st expansion mold, a 2 nd expansion mold, a … nth imprinting mold, a 1 st mold, a 2 nd imprinting mold and a … nth imprinting mold are sequentially arranged on the quick-change structure, wherein N is a natural number more than or equal to 2, when the quick-change structure stops moving, at least one group of M expanding square die and M group of stamping die are arranged right below the expanding square driving component and the stamping driving component, wherein M is more than or equal to 1 and less than or equal to N, and M is a natural number.

2. A multi-tank type production line as claimed in claim 1, characterized in that: go up turn-ups and last back cover combination station include if N group along jar body transfer chain upper turn-ups and last back cover assembling die of arranging in order, M upper turn-ups mould, M upper back cover mould and M upper back cover pay-off structure integration arrange in order in the mount pad of M upper turn-ups and last back cover assembling die, wherein 1 is less than or equal to M and is less than or equal to N, and M is the natural number, every the jar body jacking device has been arranged respectively under the upper turn-ups mould, the upper back cover mould of upper turn-ups and upper back cover assembling die.

3. A multi-tank type production line as claimed in claim 1, characterized in that: the lower flanging and lower back cover combined station comprises a plurality of groups of lower flanging and lower back cover combined dies which are sequentially arranged along the tank body conveying line, wherein the M lower flanging die, the M lower back cover die and the M lower back cover feeding structure are integrated on the M upper flanging and the mounting seat of the M upper back cover combined die in sequence, M is not less than 1 and not more than N, M is a natural number, and each tank body jacking device is respectively arranged under the lower flanging die and the lower back cover die of the lower flanging and lower back cover combined dies.

4. A multi-tank type production line as claimed in claim 2 or 3, characterized in that: the tank body jacking device is specifically a two-power-driven jacking device, namely one power source drives two tank bodies at corresponding positions to ascend synchronously.

5. A multi-tank type production line as claimed in claim 1, characterized in that: when the value of N is 2, quick change mechanism specifically is sharp slider structure, sharp slider structure inlay install in the linear guide setting of sectional shelf, the bottom central point of sharp slider structure puts along jar body transfer chain 1 st rising side mould, 2 nd rising side mould, 1 st impression mould, 2 nd impression mould of having arranged in order.